ZSM Wiki - User contributions [en-gb]

Ongoing PoCs

2024-01-31T18:22:07Z

Vreck: Reversing the order of PoCs to get the most recent PoCs on the top of the page and the old completed PoCs at the bottom

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

'''[[PoC 9 Intent-driven Energy Saving. ]]'''
Huawei Technologies - China Telecom - Deutsche Telecom - Xidian University
'''ongoing'''

'''[[PoC 8 Building Cloud AR/VR Service on CAMARA by Using ZSM Framework. ]]'''
Telefonica - Huawei Technologies - Centre Tecnològic de Telecomunicacions de Catalunya (CTTC)
'''ongoing'''

'''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
CCTC - EURECOM - NEC - OTE
'''Completed: PoC Report available'''

'''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM
'''Completed: PoC Report available'''

'''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid
'''Completed: PoC Report available'''

'''[[PoC 4 Autonomous network slice management]]'''
DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.
'''Completed: PoC Report available'''

'''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University
'''Completed: PoC Report available'''

'''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice
'''Completed: PoC Report available'''

'''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch
'''Completed'''

Ongoing PoCs

2024-01-31T18:13:47Z

Vreck:

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

'''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch
'''Completed'''

'''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice
'''Completed: PoC Report available'''

'''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University
'''Completed: PoC Report available'''

'''[[PoC 4 Autonomous network slice management]]'''
DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.
'''Completed: PoC Report available'''

'''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid
'''Completed: PoC Report available'''

'''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM
'''Completed: PoC Report available'''

'''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
CCTC - EURECOM - NEC - OTE
'''Completed: PoC Report available'''

'''[[PoC 8 Building Cloud AR/VR Service on CAMARA by Using ZSM Framework. ]]'''
Telefonica - Huawei Technologies - Centre Tecnològic de Telecomunicacions de Catalunya (CTTC)
'''ongoing'''

'''[[PoC 9 Intent-driven Energy Saving. ]]'''
Huawei Technologies - China Telecom - Deutsche Telecom - Xidian University
'''ongoing'''

File:ZSM POC 9.pdf

2024-01-31T18:11:22Z

Vreck:

PoC 9 Intent-driven Energy Saving.

2024-01-31T17:23:04Z

Vreck: Creating PoC#9 page

== PoC Team ==
* Huawei Technologies
* China Telecom
* Deutsche Telekom
* Xidian University

== Main Contact ==
* Miss yuan XIE (yuan.xie''_at_''huawei.com)
== Abstract ==
This PoC Project describes the use of an intent-driven approach for Energy Saving in the radio network domain. The PoC aims to demonstrate:

1) How an intent-driven approach used by a NOP (as MnS consumer/intent owner) to express the RAN energy saving expectation (including energy efficiency targets and user experience targets) to a NEP (as MnS producer/intent handler/intent management entity).

2) How the NOP monitors the RAN energy saving effects, by obtaining a detailed intent report (e.g. regarding energy consumption) from NEP.

(Note: NOP - Network Operator; NEP - Network Equipment Provider)
The implementation of the solution of this PoC complies with the 3GPP and the ZSM specifications. The design architecture of the use case follows ZSM 002 (ZSM framework), and uses the intent-driven management service (including intent management operations and intent information model) defined in 3GPP TS 28.312.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000229r2_ZSM_PoC_Proposal__Intent-driven_Energy_Saving.docx ZSM(23)000229r2] - [[media:ZSM POC 9.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Mar 2024 (ZSM#26 meeting), Demonstrate standardized intent-driven interface.
* Demo 1, May 2024 (ZSM#27 meeting), Demonstrate intent handling, and RAN energy saving action execution, with intent report returned for energy saving effect evaluation and monitor.

== PoC Report(s) ==
* PoC #9 Final report expected in June 2024

Ongoing PoCs

2024-01-31T17:01:14Z

Vreck: Adding PoC#9

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

'''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch

'''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice
'''Completed: PoC Report available'''

'''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University
'''Completed: PoC Report available'''

'''[[PoC 4 Autonomous network slice management]]'''
DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.
'''Completed: PoC Report available'''

'''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid
'''Completed: PoC Report available'''

'''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM
'''Completed: PoC Report available'''

'''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
CCTC - EURECOM - NEC - OTE
'''Completed: PoC Report available'''

'''[[PoC 8 Building Cloud AR/VR Service on CAMARA by Using ZSM Framework. ]]'''
Telefonica - Huawei Technologies - Centre Tecnològic de Telecomunicacions de Catalunya (CTTC)
'''ongoing'''

'''[[PoC 9 Intent-driven Energy Saving. ]]'''
Huawei Technologies - China Telecom - Deutsche Telecom - Xidian University
'''ongoing'''

File:ZSM POC 8.pdf

2023-11-20T15:41:08Z

Vreck: new version

== Summary ==
new version

PoC 8 Building Cloud AR/VR Service on CAMARA by Using ZSM Framework.

2023-11-20T15:31:40Z

Vreck: updated hyperlinks to PoC description to ZSM(23)000212r1

== PoC Team ==
* Telefonica
* Huawei Technologies
* Centre Tecnològic de Telecomunicacions de Catalunya (CTTC)

== Main Contact ==
* Henry YU (henry.yu1''_at_''huawei.com)
== Abstract ==
This PoC demonstrates the possibility of building a cloud-based AR/VR service on CAMARA platform using the ZSM framework. The use-case contributes to the NaaS paradigm by providing both the networking requirements and the edge cloud PaaS requirements of such applications. ZSM management services (defined in ZSM 002) and cross-domain orchestration (ZSM 008) will be demonstrated through the realization of the ETSI F5G 008’s Cloud VR Gaming Use-case. The solution of this PoC will leverage and extend open source projects including ETSI TeraflowSDN (TFS), ETSI OSM, and IETF Kafka-YANG data mesh.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000212r1_ZSM_PoC_Proposal__Building_Cloud_AR_VR_Service_on_CAMARA_by_.docx ZSM(23)000212r1] - [[media:ZSM POC 8.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Feb 2024, Public demonstration of Cloud AR/VR Gaming service creation, deployment, orchestration, and termination via CAMARA service APIs at Mobile World Congress (Barcelona, Feb 2024)

== Other links ==
Information about CAMARA, OSM, TFS, and IETF Kafka-YANG is available at the following links respectively:
Information about CAMARA, OSM, TFS, and IETF Kafka-YANG is available at the following links respectively:
* https://camaraproject.org/
* https://osm.etsi.org/
* https://tfs.etsi.org/
* https://github.com/network-analytics/draft-daisy-kafka-yang-integration/blob/main/draft-daisy-kafka-yang-integration-04.md

== PoC Report(s) ==
* PoC #8 Final report expected in April 2024

PoC 8 Building Cloud AR/VR Service on CAMARA by Using ZSM Framework.

2023-11-07T08:09:11Z

Vreck: /* PoC Proposal */

== PoC Team ==
* Telefonica
* Huawei Technologies
* Centre Tecnològic de Telecomunicacions de Catalunya (CTTC)

== Main Contact ==
* Henry YU (henry.yu1''_at_''huawei.com)
== Abstract ==
This PoC demonstrates the possibility of building a cloud-based AR/VR service on CAMARA using the ZSM framework. The use-case contributes to the NaaS paradigm by providing both the networking requirements and the edge cloud PaaS requirements of such applications. ZSM management services (defined in ZSM 002) and cross-domain orchestration (ZSM 008) will be demonstrated through the realization of the ETSI F5G 008’s Cloud VR Gaming Use-case. The solution of this PoC will leverage and extend open source projects including ETSI TeraflowSDN (TFS), ETSI OSM, and IETF Kafka-YANG data mesh.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000212_ZSM_PoC_Proposal__Building_Cloud_AR_VR_Service_on_CAMARA_by_.docx ZSM(23)000212] - [[media:ZSM_POC_8.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Feb 2024, Public demonstration of Cloud AR/VR Gaming service creation, deployment, orchestration, and termination via CAMARA service APIs at Mobile World Congress (Barcelona, Feb 2024)

== Other links ==
Information about CAMARA, OSM, TFS, and IETF Kafka-YANG is available at the following links respectively:
Information about CAMARA, OSM, TFS, and IETF Kafka-YANG is available at the following links respectively:
* https://camaraproject.org/
* https://osm.etsi.org/
* https://tfs.etsi.org/
* https://github.com/network-analytics/draft-daisy-kafka-yang-integration/blob/main/draft-daisy-kafka-yang-integration-04.md

== PoC Report(s) ==
* PoC #8 Final report expected in April 2024

PoC 8 Building Cloud AR/VR Service on CAMARA by Using ZSM Framework.

2023-11-07T08:03:07Z

Vreck: Create PoC#8 page

== PoC Team ==
* Telefonica
* Huawei Technologies
* Centre Tecnològic de Telecomunicacions de Catalunya (CTTC)

== Main Contact ==
* Henry YU (henry.yu1''_at_''huawei.com)
== Abstract ==
This PoC demonstrates the possibility of building a cloud-based AR/VR service on CAMARA using the ZSM framework. The use-case contributes to the NaaS paradigm by providing both the networking requirements and the edge cloud PaaS requirements of such applications. ZSM management services (defined in ZSM 002) and cross-domain orchestration (ZSM 008) will be demonstrated through the realization of the ETSI F5G 008’s Cloud VR Gaming Use-case. The solution of this PoC will leverage and extend open source projects including ETSI TeraflowSDN (TFS), ETSI OSM, and IETF Kafka-YANG data mesh.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000212_ZSM_PoC_Proposal__Building_Cloud_AR_VR_Service_on_CAMARA_by_.docx ZSM(23)000212] - [[media:ZSM POC 8.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Feb 2024, Public demonstration of Cloud AR/VR Gaming service creation, deployment, orchestration, and termination via CAMARA service APIs at Mobile World Congress (Barcelona, Feb 2024)

== Other links ==
Information about CAMARA, OSM, TFS, and IETF Kafka-YANG is available at the following links respectively:
Information about CAMARA, OSM, TFS, and IETF Kafka-YANG is available at the following links respectively:
* https://camaraproject.org/
* https://osm.etsi.org/
* https://tfs.etsi.org/
* https://github.com/network-analytics/draft-daisy-kafka-yang-integration/blob/main/draft-daisy-kafka-yang-integration-04.md

== PoC Report(s) ==
* PoC #8 Final report expected in April 2024

PoC 7 Zero-touch closed-control security management of attacks detection and mitigation.

2023-11-07T07:50:41Z

Vreck: typo corrected

== PoC Team ==
* CTTC
* EURECOM
* NEC
* OTE

== Main Contact ==
* Engin Zeydan (engin.zeydan''_at_''cttc.cat)
== Abstract ==
Demonstration of closed loop automation for mitigating against DDoS attacks from MTC (Machine Type Communication) devices on 5G Core Network (CN) components,

The proposed framework is aligned with the "Figure 7.2.1-1: Functional view of a Closed Loop and its stages within the ZSM framework" in ZSM009-1. The mapping of the in-scope management components of MonB5G with ZSM services and capabilities defined in Section 7.2 Functional view is as follows:

- The monitoring stage is realized, fully or in part, by the (domain or E2E) data collection management services (clauses 6.5.2 and 6.6.2 of ETSI GS ZSM 002). The "Monitoring" stage of Figure 7.2.1-1 is mapped with MS in MonB5G architecture.

- The analysis stage is realized, fully or in part, by the (domain or E2E) analytics management services (clauses 6.5.3 and 6.6.3 of ETSI GS ZSM 002). The "Analysis" stage of Figure 7.2.1-1 is mapped with AE.

- The decision stage is realized, fully or in part, by the (domain or E2E) intelligence management services (clauses 6.5.4 and 6.6.4 of ETSI GS ZSM 002). The "Decision" stage of Figure 7.2.1-1 is mapped with DE.

- The execution stage is realized, fully or in part, by the domain orchestration and control management services (clauses 6.5.5 and 6.5.6 of ETSI GS ZSM 002), when the CL is deployed within a management domain. The "Execution" stage is mapped with Actuators.

- Knowledge is realized, fully or in part, by the (domain or cross-domain) data services (clause 6.4 of ETSI GS ZSM 002) The "Knowledge" of Figure 7.2.1-1 is mapped to store historical data for training ML algorithms in MonB5G architecture.

- The communication and interoperation between the CL stages may be realized, fully or in part, by the (domain or cross-domain) integration fabric management services. These stages in Figure 7.2.1-1 is mapped with the message bus in MonB5G.

- The primary flow of data and control messages are expressed by arrows M2A (is between MS and AE), A2D (is between AE and DE), D2E (is between DE and Actuator) and E2M (is between Actuator and MS)

- The double-headed arrows K1 (Store historical information), K2 (Store historical analytics insights), K3 (Store historical workflows) and K4 (Store historical actions)
== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000321r1_ZSM_POC_Proposal__Zero-touch_closed-control_security_managem.docx ZSM(22)000321r1] - [[media:ZSM POC 7.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Feb 2023, PoC public Demo at IoT solutions World congress (Barcelona, Jan 31 – Feb 2) or Mobile World Congress (Barcelona, Feb 27– March 2) as [https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000033_ETSI_ZSM_PoC__7_-_demo_at_IoTSWC__2023__Barcelona.png ZSM(23)000033]

== Other links ==
More details about the PoC content can be found in [https://www.monb5g.eu/dissemination-n-communication/ MonB5G project]’s dissemination and communication activities.

== PoC Reports ==
* PoC #7 Final report was presented at the ZSM#23 meeting (9 May 2023) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000050_ETSI_ZSM_PoC__7_-__Final_Report.docx ZSM(23)000050] on ETSI portal - [[media:ZSM(23)000050_ETSI_ZSM_PoC_7_-_Final_Report.pdf |Download pdf]]
'''PoC Successfully Completed'''

Ongoing PoCs

2023-11-07T07:34:48Z

Vreck: added PoC#8

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

'''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch

'''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice
'''Completed: PoC Report available'''

'''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University
'''Completed: PoC Report available'''

'''[[PoC 4 Autonomous network slice management]]'''
DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.
'''Completed: PoC Report available'''

'''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid
'''Completed: PoC Report available'''

'''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM
'''Completed: PoC Report available'''

'''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
CCTC - EURECOM - NEC - OTE
'''Completed: PoC Report available'''

'''[[PoC 8 Building Cloud AR/VR Service on CAMARA by Using ZSM Framework. ]]'''
Telefonica - Huawei Technologies - Centre Tecnològic de Telecomunicacions de Catalunya (CTTC)
'''ongoing'''

Ongoing PoCs

2023-05-09T16:10:21Z

Vreck:

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

'''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch

'''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice
'''Completed: PoC Report available'''

'''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University
'''Completed: PoC Report available'''

'''[[PoC 4 Autonomous network slice management]]'''
DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.
'''Completed: PoC Report available'''

'''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid
'''Completed: PoC Report available'''

'''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM
'''Completed: PoC Report available'''

'''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
CCTC - EURECOM - NEC - OTE
'''Completed: PoC Report available'''

Ongoing PoCs

2023-05-09T16:09:46Z

Vreck:

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

'''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch

'''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice
'''Completed: PoC Report available'''

'''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University
'''Completed: PoC Report available'''

'''[[PoC 4 Autonomous network slice management]]'''
DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.
'''Completed: PoC Report available'''

'''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid
'''Completed: PoC Report available'''

'''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM
'''Completed: PoC Report available'''

'''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
CCTC - EURECOM - NEC - OTE
'''Completed: PoC Report available'''

Ongoing PoCs

2023-05-09T16:08:27Z

Vreck: /* List of ZSM PoCs */

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

'''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch

'''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice

'''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University

'''[[PoC 4 Autonomous network slice management]]'''
DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.

'''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid

'''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM

'''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
CCTC - EURECOM - NEC - OTE

PoC 7 Zero-touch closed-control security management of attacks detection and mitigation.

2023-05-09T15:59:25Z

Vreck: /* PoC Reports */

== PoC Team ==
* CTTC
* EURECOM
* NEC
* OTE

== Main Contact ==
* Engin Zeydan (engin.zeydan''_at_''cttc.cat)
== Abstract ==
Demonstration of closed loop automation for mitigating against DDoS attacks from MTC (Machine Type Communication) devices on 5G Core Network (CN) components,

The proposed framework is aligned with the "Figure 7.2.1-1: Functional view of a Closed Loop and its stages within the ZSM framework" in ZSM009-1. The mapping of the in-scope management components of MonB5G with ZSM services and capabilities defined in Section 7.2 Functional view is as follows:

- The monitoring stage is realized, fully or in part, by the (domain or E2E) data collection management services (clauses 6.5.2 and 6.6.2 of ETSI GS ZSM 002). The "Monitoring" stage of Figure 7.2.1-1 is mapped with MS in MonB5G architecture.

- The analysis stage is realized, fully or in part, by the (domain or E2E) analytics management services (clauses 6.5.3 and 6.6.3 of ETSI GS ZSM 002). The "Analysis" stage of Figure 7.2.1-1 is mapped with AE.

- The decision stage is realized, fully or in part, by the (domain or E2E) intelligence management services (clauses 6.5.4 and 6.6.4 of ETSI GS ZSM 002). The "Decision" stage of Figure 7.2.1-1 is mapped with DE.

- The execution stage is realized, fully or in part, by the domain orchestration and control management services (clauses 6.5.5 and 6.5.6 of ETSI GS ZSM 002), when the CL is deployed within a management domain. The "Execution" stage is mapped with Actuators.

- Knowledge is realized, fully or in part, by the (domain or cross-domain) data services (clause 6.4 of ETSI GS ZSM 002) The "Knowledge" of Figure 7.2.1-1 is mapped to store historical data for training ML algorithms in MonB5G architecture.

- The communication and interoperation between the CL stages may be realized, fully or in part, by the (domain or cross-domain) integration fabric management services. These stages in Figure 7.2.1-1 is mapped with the message bus in MonB5G.

- The primary flow of data and control messages are expressed by arrows M2A (is between MS and AE), A2D (is between AE and DE), D2E (is between DE and Actuator) and E2M (is between Actuator and MS)

- The double-headed arrows K1 (Store historical information), K2 (Store historical analytics insights), K3 (Store historical workflows) and K4 (Store historical actions)
== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000321r1_ZSM_POC_Proposal__Zero-touch_closed-control_security_managem.docx ZSM(22)000321r1] - [[media:ZSM POC 7.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Feb 2023, PoC public Demo at IoT solutions World congress (Barcelona, Jan 31 – Feb 2) or Mobile World Congress (Barcelona, Feb 27– March 2) as [https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000033_ETSI_ZSM_PoC__7_-_demo_at_IoTSWC__2023__Barcelona.png ZSM(23)000033]

== Other links ==
More details about the PoC content can be found in [https://www.monb5g.eu/dissemination-n-communication/ MonB5G project]’s dissemination and communication activities.

== PoC Reports ==
* PoC #7 Final report was presented t the ZSM#23 meetinf (9 May 2023) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000050_ETSI_ZSM_PoC__7_-__Final_Report.docx ZSM(23)000050] on ETSI portal - [[media:ZSM(23)000050_ETSI_ZSM_PoC_7_-_Final_Report.pdf |Download pdf]]
'''PoC Successfully Completed'''

PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments.

2023-05-09T15:57:09Z

Vreck: /* PoC Reports */

== PoC Team ==
* Telefónica
* Fundaciò i2CAT
* NextWorks
* Interdigital
* Universidad Carlos III de Madrid

== Main Contact ==
* Jose Ordonez-Lucena (joseantonio.ordonezlucena''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
After interviews with real-world industry 4.0 verticals, participants have identified the as-is situation: nowadays, autonomous Guide Vehicles (AGV) navigate autonomously in a factory, and the vertical does not know how often it does stop, and why. The objective is to PoC is to precisely allow the vertical to gain this knowledge (business intelligence), and then use it to optimize AGV trajectories (e.g., replan trajectory).
This PoC is conceived to demonstrate the use of ZSM services and associated zero-touch management capabilities to provision a private 5G network on-demand. This private 5G network will be used to enhance autonomous navigation of AGV in the shop floor of a factory, allowing a remote worker to keep track of AGV trajectory and alert him/her on unexpected incidents (also known as disturbances) that cause deviations from the planned route. When the unexpected incident happens, the AGV slows down or stops, captures a photo on what is in front of it with the on-board camera, and sends the photo to a pre-trained obstacle detection function. This application identifies that the root cause of the incident is an obstacle, and notifies the remote worker accordingly, with the coordinates where the obstacle is, together with the photo taken.
The private 5G network will not be confined to on-premises infrastructure; in fact, it will rely on the capabilities of telco edge computing to host obstacle detection function. The result is a PNI-NPN. To make an agile yet efficient provisioning of the PNI-NPN, network slicing will be used.
== PoC Proposal ==
Full PoC proposal on etsi portal as
[http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000125r1_ZSM_PoC_Proposal_on-demand_non-public_networks_for_i40_docx ZSM(22)000125r1] - [[media:ZSM POC 5.pdf|Download pdf]]
== PoC Topics ==
This PoC is WORKING on:
* Topic 2 - [[Topic2 - Automation in Multi-Stakeholder Ecosystems|Automation in Multi-Stakeholder Ecosystems]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]
== PoC Demo ==
* Demo 1, June 2022, Showcasing PoC results at 2022 EuCNC & 6G Summit (EuCNC’22). 7-10 June 2022, Grenoble (France).
* Demo 2, ZSM#20, 10-13 October 2022, Dublin (Ireland)

== Other links ==
[1]  [https://www.5gclarity.com/ H2020 project 5G-CLARITY]

[2]  [https://www.5gzorro.eu/ H2020 project 5GZORRO]

[3]   3GPP TS 23.501, “System architecture for the 5G System (5GS)”.

[4]   https://i2cat.net/project-cat/industry-4-0/

[5]   https://www.5tonic.org

[6]   Vidal, I.; Nogales, B.; Lopez, D.; Rodríguez, J.; Valera, F.; Azcorra, A. “A Secure Link-Layer Connectivity Platform for Multi-Site NFV Services”. Electronics 2021, 10, 1868. DOI: https://doi.org/10.3390/electronics10151868

[7]   [https://open5gs.org Open5GS]

== PoC Reports ==
* Contribution on lessons learned, June 2022, Feedback on lessons learnt about the PoC, in order to make improvements when executing the PoC in production factory networks (see clarifications on portable testbed vs in-factory setup in Section 2.2).
* Feedback to ISG ZSM on potential improvements, June 2022, This PoC relates to ZSM 002, ZSM 003 and ZSM 008. Potential improvements of these standards, if any, might be discovered by the PoC, and will be input to contributions to work items.
* PoC #5 Final report (July 2022) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000349r1_ZSM_PoC_5_Final_Report.docx ZSM(22)000349r1] on ETSI portal - [[media:ZSM(22)000349r1_ZSM_PoC_5_Final_Report.pdf |Download pdf]]
'''PoC Successfully Completed'''

PoC 4 Autonomous network slice management

2023-05-09T15:56:28Z

Vreck: /* PoC Reports */

== PoC Team ==
* DOCOMO Communications Lab.
* NTT Corp.
* NTT Communications, Corp.
* NTT DOCOMO, INC.

== Main Contact ==
* Wenjing Chen, DOCOMO Communications Lab. (wenjing.chen.bv''_at_''nttdocomo.com)

== Abstract ==
This PoC demonstrates the use-case of the autonomous network slice management. The use-case is based on ZSM framework reference architecture and implemented with the ZSM standards and NTT products. The PoC will demonstrate management services (defined in ZSM 002), network slice management (defined in ZSM 003) and cross-domain orchestration (defined in ZSM 008) on E2E management domain and TN, CN, DN management domain.
== PoC Proposal ==
Full PoC proposal on etsi portal as
[http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000014r2_ZSM_PoC_Proposal_Autonomous_Network_Slice_Management.doc ZSM(22)000014r2] - [[media:ZSM POC 4.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, May 2022, "Network slice instance creation based on ZSM002 ZSM framework with ZSM003 network slicing process and ZSM008 management service between E2E MD and MD."
* Demo 2, May 2022, "Network slice instance deletion based on ZSM002 ZSM framework with ZSM003 network slicing process and ZSM008 management service between E2E MD and MD."
* Demo 3, May 2022, "Closed-loop automation due to the FM/PM notification related to ZSM002, ZSM003, ZSM008."
A demonstration was made at the ZSM#19 meeting (May 2022), a [https://docbox.etsi.org/isg/zsm/open/Other/POC_Demo_Videos/PoC4_Demo_20220516.mp4 '''video of the demo was'''] recorded, it gives an overview of the PoC project as well as a presentation of the 3 PoC demos.

== Other links ==

== PoC Reports ==
* PoC#4 Interim Report (10 March 2022) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000096_ZSM_22_000096_PoC_x_Interim_Report.doc ZSM(22)000096] on ETSI portal - [[media:ZSM_POC_4_Interim_Report.pdf |Download pdf]]
* PoC#4 Final Report (May 2022) [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000181_PoC_4_Final_Report.doc ZSM(22)000181] on ETSI portal - [[media:ZSM(22)000181_PoC_4_Final_Report.pdf |Download pdf]]
'''PoC Successfully Completed'''

PoC 3 Automation of Intent-based cloud leased line service

2023-05-09T15:56:16Z

Vreck: /* PoC Reports */

== PoC Team ==
* China Telecom
* China Mobile
* China Unicom
* Huawei Technologies
* AsiaInfo Technologies
* Xidian University

== Main Contact ==
* Wang Dong, China Telecommunications (wangd5''_at_'' chinatelecom.cn)
* Henry Yu, Huawei (henry.yu1_at_huawei.com=

== Abstract ==
This PoC demonstrates the automation of the Intent-based cloud leased line (CLL) use-case. The use-case is developed on ONAP, and its implementation complies with the ZSM standards. The PoC will demonstrate management services (defined in ZSM 002), cross-domain orchestration (ZSM 008), closed-loop (ZSM 009), and Intent-based networking (ZSM 011).

== PoC Proposal ==
The full PoC proposal is available in the ETSI ZSM Portal:
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000064r3_ZSM_PoC_Proposal__Intent-based_Cloud_Leased_Line_on_ONAP.docx ISG ZSM PoC proposal "Intent-based Cloud Leased Line on ONAP"] - [[media:ZSM POC 3.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, May 2022, "Automated CPL service creation and modification using ZSM framework (ZSM 002) (simulated hardware)"
* Demo 2, Dec 2022, "Closed-loop in Transport MD (ZSM 009) (simulated hardware). Demo 2 will be built as an evolution of Demo 1."
PoC demos were given at ZSM#19 ('''[https://docbox.etsi.org/isg/zsm/open/Other/POC_Demo_Videos/PoC3_Demo_20220518.mp4 video of the demo is available here]''') and ZSM#21 meetings.

== Other links ==

== PoC Reports ==
* PoC #3 Final report was presented to ZSM#23 on the 9th of May 2023 - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000026r1_ZSM_POC_3_Final_Report.docx ZSM(23)000026r1] on ETSI portal - [[media:ZSM(23)000026_ZSM_POC_3_Final_Report.pdf |Download pdf]]

'''PoC Successfully Completed'''

PoC 3 Automation of Intent-based cloud leased line service

2023-05-09T15:55:00Z

Vreck: /* PoC Reports */

PoC 3 Automation of Intent-based cloud leased line service

2023-05-09T15:53:26Z

Vreck: /* PoC Reports */

== PoC Team ==
* China Telecom
* China Mobile
* China Unicom
* Huawei Technologies
* AsiaInfo Technologies
* Xidian University

== Main Contact ==
* Wang Dong, China Telecommunications (wangd5''_at_'' chinatelecom.cn)
* Henry Yu, Huawei (henry.yu1_at_huawei.com=

== Abstract ==
This PoC demonstrates the automation of the Intent-based cloud leased line (CLL) use-case. The use-case is developed on ONAP, and its implementation complies with the ZSM standards. The PoC will demonstrate management services (defined in ZSM 002), cross-domain orchestration (ZSM 008), closed-loop (ZSM 009), and Intent-based networking (ZSM 011).

== PoC Proposal ==
The full PoC proposal is available in the ETSI ZSM Portal:
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000064r3_ZSM_PoC_Proposal__Intent-based_Cloud_Leased_Line_on_ONAP.docx ISG ZSM PoC proposal "Intent-based Cloud Leased Line on ONAP"] - [[media:ZSM POC 3.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, May 2022, "Automated CPL service creation and modification using ZSM framework (ZSM 002) (simulated hardware)"
* Demo 2, Dec 2022, "Closed-loop in Transport MD (ZSM 009) (simulated hardware). Demo 2 will be built as an evolution of Demo 1."
PoC demos were given at ZSM#19 ('''[https://docbox.etsi.org/isg/zsm/open/Other/POC_Demo_Videos/PoC3_Demo_20220518.mp4 video of the demo is available here]''') and ZSM#21 meetings.

== Other links ==

== PoC Reports ==
* PoC #3 Final report (January 2023) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000026r1_ZSM_POC_3_Final_Report.docx ZSM(23)000026r1] on ETSI portal - [[media:ZSM(23)000026_ZSM_POC_3_Final_Report.pdf |Download pdf]]

* '''PoC Successfully Completed'''

PoC 3 Automation of Intent-based cloud leased line service

2023-05-09T15:52:30Z

Vreck: /* PoC Demo */

== PoC Team ==
* China Telecom
* China Mobile
* China Unicom
* Huawei Technologies
* AsiaInfo Technologies
* Xidian University

== Main Contact ==
* Wang Dong, China Telecommunications (wangd5''_at_'' chinatelecom.cn)
* Henry Yu, Huawei (henry.yu1_at_huawei.com=

== Abstract ==
This PoC demonstrates the automation of the Intent-based cloud leased line (CLL) use-case. The use-case is developed on ONAP, and its implementation complies with the ZSM standards. The PoC will demonstrate management services (defined in ZSM 002), cross-domain orchestration (ZSM 008), closed-loop (ZSM 009), and Intent-based networking (ZSM 011).

== PoC Proposal ==
The full PoC proposal is available in the ETSI ZSM Portal:
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000064r3_ZSM_PoC_Proposal__Intent-based_Cloud_Leased_Line_on_ONAP.docx ISG ZSM PoC proposal "Intent-based Cloud Leased Line on ONAP"] - [[media:ZSM POC 3.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, May 2022, "Automated CPL service creation and modification using ZSM framework (ZSM 002) (simulated hardware)"
* Demo 2, Dec 2022, "Closed-loop in Transport MD (ZSM 009) (simulated hardware). Demo 2 will be built as an evolution of Demo 1."
PoC demos were given at ZSM#19 ('''[https://docbox.etsi.org/isg/zsm/open/Other/POC_Demo_Videos/PoC3_Demo_20220518.mp4 video of the demo is available here]''') and ZSM#21 meetings.

== Other links ==

== PoC Reports ==
* PoC #3 Final report (January 2023) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000026_ZSM_POC_3_Final_Report.docx ZSM(23)000026] on ETSI portal - [[media:ZSM(23)000026_ZSM_POC_3_Final_Report.pdf |Download pdf]]

File:ZSM(22)000181 PoC 4 Final Report.pdf

2023-03-13T09:36:02Z

Vreck:

PoC 4 Autonomous network slice management

2023-03-13T09:35:37Z

Vreck: /* PoC Reports */

PoC 4 Autonomous network slice management

2023-03-13T09:35:02Z

Vreck: /* PoC Reports */

== PoC Team ==
* DOCOMO Communications Lab.
* NTT Corp.
* NTT Communications, Corp.
* NTT DOCOMO, INC.

== Main Contact ==
* Wenjing Chen, DOCOMO Communications Lab. (wenjing.chen.bv''_at_''nttdocomo.com)

== Abstract ==
This PoC demonstrates the use-case of the autonomous network slice management. The use-case is based on ZSM framework reference architecture and implemented with the ZSM standards and NTT products. The PoC will demonstrate management services (defined in ZSM 002), network slice management (defined in ZSM 003) and cross-domain orchestration (defined in ZSM 008) on E2E management domain and TN, CN, DN management domain.
== PoC Proposal ==
Full PoC proposal on etsi portal as
[http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000014r2_ZSM_PoC_Proposal_Autonomous_Network_Slice_Management.doc ZSM(22)000014r2] - [[media:ZSM POC 4.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, May 2022, "Network slice instance creation based on ZSM002 ZSM framework with ZSM003 network slicing process and ZSM008 management service between E2E MD and MD."
* Demo 2, May 2022, "Network slice instance deletion based on ZSM002 ZSM framework with ZSM003 network slicing process and ZSM008 management service between E2E MD and MD."
* Demo 3, May 2022, "Closed-loop automation due to the FM/PM notification related to ZSM002, ZSM003, ZSM008."
A demonstration was made at the ZSM#19 meeting (May 2022), a [https://docbox.etsi.org/isg/zsm/open/Other/POC_Demo_Videos/PoC4_Demo_20220516.mp4 '''video of the demo was'''] recorded, it gives an overview of the PoC project as well as a presentation of the 3 PoC demos.

== Other links ==

== PoC Reports ==
* PoC#4 Interim Report (10 March 2022) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000096_ZSM_22_000096_PoC_x_Interim_Report.doc ZSM(22)000096] on ETSI portal - [[media:ZSM_POC_4_Interim_Report.pdf |Download pdf]]
* PoC#4 Final Report ( May 2022) in [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000181_PoC_4_Final_Report.doc ZSM(22)000181] on ETSI portal - [[media:ZSM(22)000181_PoC_4_Final_Report.pdf |Download pdf]]

PoC 3 Automation of Intent-based cloud leased line service

2023-03-13T09:31:44Z

Vreck: /* PoC Demo */

== PoC Team ==
* China Telecom
* China Mobile
* China Unicom
* Huawei Technologies
* AsiaInfo Technologies
* Xidian University

== Main Contact ==
* Wang Dong, China Telecommunications (wangd5''_at_'' chinatelecom.cn)
* Henry Yu, Huawei (henry.yu1_at_huawei.com=

== Abstract ==
This PoC demonstrates the automation of the Intent-based cloud leased line (CLL) use-case. The use-case is developed on ONAP, and its implementation complies with the ZSM standards. The PoC will demonstrate management services (defined in ZSM 002), cross-domain orchestration (ZSM 008), closed-loop (ZSM 009), and Intent-based networking (ZSM 011).

== PoC Proposal ==
The full PoC proposal is available in the ETSI ZSM Portal:
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000064r3_ZSM_PoC_Proposal__Intent-based_Cloud_Leased_Line_on_ONAP.docx ISG ZSM PoC proposal "Intent-based Cloud Leased Line on ONAP"] - [[media:ZSM POC 3.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, May 2022, "Automated CPL service creation and modification using ZSM framework (ZSM 002) (simulated hardware)"
* Demo 2, May 2022, "Closed-loop in Transport MD (ZSM 009) (simulated hardware). Demo 2 will be built as an evolution of Demo 1."
A PoC demo was given at the ZSM#19 meeting, the '''[https://docbox.etsi.org/isg/zsm/open/Other/POC_Demo_Videos/PoC3_Demo_20220518.mp4 video of the demo is available here]'''.

== Other links ==

== PoC Reports ==
* PoC #3 Final report (January 2023) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000026_ZSM_POC_3_Final_Report.docx ZSM(23)000026] on ETSI portal - [[media:ZSM(23)000026_ZSM_POC_3_Final_Report.pdf |Download pdf]]

File:ZSM(23)000026 ZSM POC 3 Final Report.pdf

2023-03-13T09:30:47Z

Vreck:

PoC 3 Automation of Intent-based cloud leased line service

2023-03-13T09:30:27Z

Vreck: /* PoC Reports */

== PoC Team ==
* China Telecom
* China Mobile
* China Unicom
* Huawei Technologies
* AsiaInfo Technologies
* Xidian University

== Main Contact ==
* Wang Dong, China Telecommunications (wangd5''_at_'' chinatelecom.cn)
* Henry Yu, Huawei (henry.yu1_at_huawei.com=

== Abstract ==
This PoC demonstrates the automation of the Intent-based cloud leased line (CLL) use-case. The use-case is developed on ONAP, and its implementation complies with the ZSM standards. The PoC will demonstrate management services (defined in ZSM 002), cross-domain orchestration (ZSM 008), closed-loop (ZSM 009), and Intent-based networking (ZSM 011).

== PoC Proposal ==
The full PoC proposal is available in the ETSI ZSM Portal:
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000064r3_ZSM_PoC_Proposal__Intent-based_Cloud_Leased_Line_on_ONAP.docx ISG ZSM PoC proposal "Intent-based Cloud Leased Line on ONAP"] - [[media:ZSM POC 3.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, May 2022, "Automated CPL service creation and modification using ZSM framework (ZSM 002) (simulated hardware)"
* Demo 2, May 2022, "Closed-loop in Transport MD (ZSM 009) (simulated hardware). Demo 2 will be built as an evolution of Demo 1."
A PoC demo was given at the ZSM#19 meeting, the '''[https://docbox.etsi.org/isg/zsm/open/Other/POC_Demo_Videos/PoC3_Demo_20220518.mp4 video of the demo is available here]'''.
* Demo 3, expected Nov 2022 "Demo with real hardware and real data traffic"

== Other links ==

== PoC Reports ==
* PoC #3 Final report (January 2023) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000026_ZSM_POC_3_Final_Report.docx ZSM(23)000026] on ETSI portal - [[media:ZSM(23)000026_ZSM_POC_3_Final_Report.pdf |Download pdf]]

PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments.

2023-03-13T09:20:28Z

Vreck: /* PoC Reports */

PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments.

2023-03-13T09:18:57Z

Vreck: /* PoC Reports */

== PoC Team ==
* Telefónica
* Fundaciò i2CAT
* NextWorks
* Interdigital
* Universidad Carlos III de Madrid

== Main Contact ==
* Jose Ordonez-Lucena (joseantonio.ordonezlucena''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
After interviews with real-world industry 4.0 verticals, participants have identified the as-is situation: nowadays, autonomous Guide Vehicles (AGV) navigate autonomously in a factory, and the vertical does not know how often it does stop, and why. The objective is to PoC is to precisely allow the vertical to gain this knowledge (business intelligence), and then use it to optimize AGV trajectories (e.g., replan trajectory).
This PoC is conceived to demonstrate the use of ZSM services and associated zero-touch management capabilities to provision a private 5G network on-demand. This private 5G network will be used to enhance autonomous navigation of AGV in the shop floor of a factory, allowing a remote worker to keep track of AGV trajectory and alert him/her on unexpected incidents (also known as disturbances) that cause deviations from the planned route. When the unexpected incident happens, the AGV slows down or stops, captures a photo on what is in front of it with the on-board camera, and sends the photo to a pre-trained obstacle detection function. This application identifies that the root cause of the incident is an obstacle, and notifies the remote worker accordingly, with the coordinates where the obstacle is, together with the photo taken.
The private 5G network will not be confined to on-premises infrastructure; in fact, it will rely on the capabilities of telco edge computing to host obstacle detection function. The result is a PNI-NPN. To make an agile yet efficient provisioning of the PNI-NPN, network slicing will be used.
== PoC Proposal ==
Full PoC proposal on etsi portal as
[http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000125r1_ZSM_PoC_Proposal_on-demand_non-public_networks_for_i40_docx ZSM(22)000125r1] - [[media:ZSM POC 5.pdf|Download pdf]]
== PoC Topics ==
This PoC is WORKING on:
* Topic 2 - [[Topic2 - Automation in Multi-Stakeholder Ecosystems|Automation in Multi-Stakeholder Ecosystems]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]
== PoC Demo ==
* Demo 1, June 2022, Showcasing PoC results at 2022 EuCNC & 6G Summit (EuCNC’22). 7-10 June 2022, Grenoble (France).
* Demo 2, ZSM#20, 10-13 October 2022, Dublin (Ireland)

== Other links ==
[1]  [https://www.5gclarity.com/ H2020 project 5G-CLARITY]

[2]  [https://www.5gzorro.eu/ H2020 project 5GZORRO]

[3]   3GPP TS 23.501, “System architecture for the 5G System (5GS)”.

[4]   https://i2cat.net/project-cat/industry-4-0/

[5]   https://www.5tonic.org

[6]   Vidal, I.; Nogales, B.; Lopez, D.; Rodríguez, J.; Valera, F.; Azcorra, A. “A Secure Link-Layer Connectivity Platform for Multi-Site NFV Services”. Electronics 2021, 10, 1868. DOI: https://doi.org/10.3390/electronics10151868

[7]   [https://open5gs.org Open5GS]

== PoC Reports ==
* Contribution on lessons learned, June 2022, Feedback on lessons learnt about the PoC, in order to make improvements when executing the PoC in production factory networks (see clarifications on portable testbed vs in-factory setup in Section 2.2).
* Feedback to ISG ZSM on potential improvements, June 2022, This PoC relates to ZSM 002, ZSM 003 and ZSM 008. Potential improvements of these standards, if any, might be discovered by the PoC, and will be input to contributions to work items.
* PoC #5 Final report (July 2022) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000349_ZSM_PoC_5_Final_Report.docx] on ETSI portal - [[media:ZSM(22)000349r1_ZSM_PoC_5_Final_Report.pdf |Download pdf]]
ZSM(22)000349

File:ZSM(22)000349r1 ZSM PoC 5 Final Report.pdf

2023-03-13T09:17:56Z

Vreck:

PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments.

2023-03-13T09:17:32Z

Vreck: /* PoC Reports */

== PoC Team ==
* Telefónica
* Fundaciò i2CAT
* NextWorks
* Interdigital
* Universidad Carlos III de Madrid

== Main Contact ==
* Jose Ordonez-Lucena (joseantonio.ordonezlucena''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
After interviews with real-world industry 4.0 verticals, participants have identified the as-is situation: nowadays, autonomous Guide Vehicles (AGV) navigate autonomously in a factory, and the vertical does not know how often it does stop, and why. The objective is to PoC is to precisely allow the vertical to gain this knowledge (business intelligence), and then use it to optimize AGV trajectories (e.g., replan trajectory).
This PoC is conceived to demonstrate the use of ZSM services and associated zero-touch management capabilities to provision a private 5G network on-demand. This private 5G network will be used to enhance autonomous navigation of AGV in the shop floor of a factory, allowing a remote worker to keep track of AGV trajectory and alert him/her on unexpected incidents (also known as disturbances) that cause deviations from the planned route. When the unexpected incident happens, the AGV slows down or stops, captures a photo on what is in front of it with the on-board camera, and sends the photo to a pre-trained obstacle detection function. This application identifies that the root cause of the incident is an obstacle, and notifies the remote worker accordingly, with the coordinates where the obstacle is, together with the photo taken.
The private 5G network will not be confined to on-premises infrastructure; in fact, it will rely on the capabilities of telco edge computing to host obstacle detection function. The result is a PNI-NPN. To make an agile yet efficient provisioning of the PNI-NPN, network slicing will be used.
== PoC Proposal ==
Full PoC proposal on etsi portal as
[http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000125r1_ZSM_PoC_Proposal_on-demand_non-public_networks_for_i40_docx ZSM(22)000125r1] - [[media:ZSM POC 5.pdf|Download pdf]]
== PoC Topics ==
This PoC is WORKING on:
* Topic 2 - [[Topic2 - Automation in Multi-Stakeholder Ecosystems|Automation in Multi-Stakeholder Ecosystems]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]
== PoC Demo ==
* Demo 1, June 2022, Showcasing PoC results at 2022 EuCNC & 6G Summit (EuCNC’22). 7-10 June 2022, Grenoble (France).
* Demo 2, ZSM#20, 10-13 October 2022, Dublin (Ireland)

== Other links ==
[1]  [https://www.5gclarity.com/ H2020 project 5G-CLARITY]

[2]  [https://www.5gzorro.eu/ H2020 project 5GZORRO]

[3]   3GPP TS 23.501, “System architecture for the 5G System (5GS)”.

[4]   https://i2cat.net/project-cat/industry-4-0/

[5]   https://www.5tonic.org

[6]   Vidal, I.; Nogales, B.; Lopez, D.; Rodríguez, J.; Valera, F.; Azcorra, A. “A Secure Link-Layer Connectivity Platform for Multi-Site NFV Services”. Electronics 2021, 10, 1868. DOI: https://doi.org/10.3390/electronics10151868

[7]   [https://open5gs.org Open5GS]

== PoC Reports ==
* Contribution on lessons learned, June 2022, Feedback on lessons learnt about the PoC, in order to make improvements when executing the PoC in production factory networks (see clarifications on portable testbed vs in-factory setup in Section 2.2).
* Feedback to ISG ZSM on potential improvements, June 2022, This PoC relates to ZSM 002, ZSM 003 and ZSM 008. Potential improvements of these standards, if any, might be discovered by the PoC, and will be input to contributions to work items.
* PoC #5 Final report (July 2022) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000349_ZSM_PoC_5_Final_Report.docx] on ETSI portal - [[media:ZSM(22)000349r1_ZSM_PoC_5_Final_Report.pdf |Download pdf]]

PoC 7 Zero-touch closed-control security management of attacks detection and mitigation.

2023-03-13T09:10:57Z

Vreck: /* PoC Reports */

== PoC Team ==
* CTTC
* EURECOM
* NEC
* OTE

== Main Contact ==
* Engin Zeydan (engin.zeydan''_at_''cttc.cat)
== Abstract ==
Demonstration of closed loop automation for mitigating against DDoS attacks from MTC (Machine Type Communication) devices on 5G Core Network (CN) components,

The proposed framework is aligned with the "Figure 7.2.1-1: Functional view of a Closed Loop and its stages within the ZSM framework" in ZSM009-1. The mapping of the in-scope management components of MonB5G with ZSM services and capabilities defined in Section 7.2 Functional view is as follows:

- The monitoring stage is realized, fully or in part, by the (domain or E2E) data collection management services (clauses 6.5.2 and 6.6.2 of ETSI GS ZSM 002). The "Monitoring" stage of Figure 7.2.1-1 is mapped with MS in MonB5G architecture.

- The analysis stage is realized, fully or in part, by the (domain or E2E) analytics management services (clauses 6.5.3 and 6.6.3 of ETSI GS ZSM 002). The "Analysis" stage of Figure 7.2.1-1 is mapped with AE.

- The decision stage is realized, fully or in part, by the (domain or E2E) intelligence management services (clauses 6.5.4 and 6.6.4 of ETSI GS ZSM 002). The "Decision" stage of Figure 7.2.1-1 is mapped with DE.

- The execution stage is realized, fully or in part, by the domain orchestration and control management services (clauses 6.5.5 and 6.5.6 of ETSI GS ZSM 002), when the CL is deployed within a management domain. The "Execution" stage is mapped with Actuators.

- Knowledge is realized, fully or in part, by the (domain or cross-domain) data services (clause 6.4 of ETSI GS ZSM 002) The "Knowledge" of Figure 7.2.1-1 is mapped to store historical data for training ML algorithms in MonB5G architecture.

- The communication and interoperation between the CL stages may be realized, fully or in part, by the (domain or cross-domain) integration fabric management services. These stages in Figure 7.2.1-1 is mapped with the message bus in MonB5G.

- The primary flow of data and control messages are expressed by arrows M2A (is between MS and AE), A2D (is between AE and DE), D2E (is between DE and Actuator) and E2M (is between Actuator and MS)

- The double-headed arrows K1 (Store historical information), K2 (Store historical analytics insights), K3 (Store historical workflows) and K4 (Store historical actions)
== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000321r1_ZSM_POC_Proposal__Zero-touch_closed-control_security_managem.docx ZSM(22)000321r1] - [[media:ZSM POC 7.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Feb 2023, PoC public Demo at IoT solutions World congress (Barcelona, Jan 31 – Feb 2) or Mobile World Congress (Barcelona, Feb 27– March 2) as [https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000033_ETSI_ZSM_PoC__7_-_demo_at_IoTSWC__2023__Barcelona.png ZSM(23)000033]

== Other links ==
More details about the PoC content can be found in [https://www.monb5g.eu/dissemination-n-communication/ MonB5G project]’s dissemination and communication activities.

== PoC Reports ==
* PoC #7 Final report (28 Feb 2023) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000050_ETSI_ZSM_PoC__7_-__Final_Report.docx ZSM(23)000050] on ETSI portal - [[media:ZSM(23)000050_ETSI_ZSM_PoC_7_-_Final_Report.pdf |Download pdf]]

File:ZSM(23)000050 ETSI ZSM PoC 7 - Final Report.pdf

2023-03-13T09:10:22Z

Vreck:

PoC 7 Zero-touch closed-control security management of attacks detection and mitigation.

2023-03-13T09:09:52Z

Vreck: /* PoC Reports */

== PoC Team ==
* CTTC
* EURECOM
* NEC
* OTE

== Main Contact ==
* Engin Zeydan (engin.zeydan''_at_''cttc.cat)
== Abstract ==
Demonstration of closed loop automation for mitigating against DDoS attacks from MTC (Machine Type Communication) devices on 5G Core Network (CN) components,

The proposed framework is aligned with the "Figure 7.2.1-1: Functional view of a Closed Loop and its stages within the ZSM framework" in ZSM009-1. The mapping of the in-scope management components of MonB5G with ZSM services and capabilities defined in Section 7.2 Functional view is as follows:

- The monitoring stage is realized, fully or in part, by the (domain or E2E) data collection management services (clauses 6.5.2 and 6.6.2 of ETSI GS ZSM 002). The "Monitoring" stage of Figure 7.2.1-1 is mapped with MS in MonB5G architecture.

- The analysis stage is realized, fully or in part, by the (domain or E2E) analytics management services (clauses 6.5.3 and 6.6.3 of ETSI GS ZSM 002). The "Analysis" stage of Figure 7.2.1-1 is mapped with AE.

- The decision stage is realized, fully or in part, by the (domain or E2E) intelligence management services (clauses 6.5.4 and 6.6.4 of ETSI GS ZSM 002). The "Decision" stage of Figure 7.2.1-1 is mapped with DE.

- The execution stage is realized, fully or in part, by the domain orchestration and control management services (clauses 6.5.5 and 6.5.6 of ETSI GS ZSM 002), when the CL is deployed within a management domain. The "Execution" stage is mapped with Actuators.

- Knowledge is realized, fully or in part, by the (domain or cross-domain) data services (clause 6.4 of ETSI GS ZSM 002) The "Knowledge" of Figure 7.2.1-1 is mapped to store historical data for training ML algorithms in MonB5G architecture.

- The communication and interoperation between the CL stages may be realized, fully or in part, by the (domain or cross-domain) integration fabric management services. These stages in Figure 7.2.1-1 is mapped with the message bus in MonB5G.

- The primary flow of data and control messages are expressed by arrows M2A (is between MS and AE), A2D (is between AE and DE), D2E (is between DE and Actuator) and E2M (is between Actuator and MS)

- The double-headed arrows K1 (Store historical information), K2 (Store historical analytics insights), K3 (Store historical workflows) and K4 (Store historical actions)
== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000321r1_ZSM_POC_Proposal__Zero-touch_closed-control_security_managem.docx ZSM(22)000321r1] - [[media:ZSM POC 7.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Feb 2023, PoC public Demo at IoT solutions World congress (Barcelona, Jan 31 – Feb 2) or Mobile World Congress (Barcelona, Feb 27– March 2) as [https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000033_ETSI_ZSM_PoC__7_-_demo_at_IoTSWC__2023__Barcelona.png ZSM(23)000033]

== Other links ==
More details about the PoC content can be found in [https://www.monb5g.eu/dissemination-n-communication/ MonB5G project]’s dissemination and communication activities.

== PoC Reports ==
* Contributions to ISG ZSM expected in November 2022, Jan 2023.
* PoC #7 Final report, 28 Feb 2023, in [[ZSM(23)000050 ETSI ZSM PoC 7 - Final Report.pdf|ZSM(23)000050]] "ETSI ZSM_PoC 7 - Final Report"

* PoC #7 Final report (28 Feb 2023) - [http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000050_ETSI_ZSM_PoC__7_-__Final_Report.docx ZSM(23)000050] on ETSI portal - [[media:ZSM(23)000050_ETSI_ZSM_PoC_7_-_Final_Report.pdf |Download pdf]]

PoC 7 Zero-touch closed-control security management of attacks detection and mitigation.

2023-03-13T09:05:37Z

Vreck: /* PoC Reports */ added link to Final Report (uploaded)

== PoC Team ==
* CTTC
* EURECOM
* NEC
* OTE

== Main Contact ==
* Engin Zeydan (engin.zeydan''_at_''cttc.cat)
== Abstract ==
Demonstration of closed loop automation for mitigating against DDoS attacks from MTC (Machine Type Communication) devices on 5G Core Network (CN) components,

The proposed framework is aligned with the "Figure 7.2.1-1: Functional view of a Closed Loop and its stages within the ZSM framework" in ZSM009-1. The mapping of the in-scope management components of MonB5G with ZSM services and capabilities defined in Section 7.2 Functional view is as follows:

- The monitoring stage is realized, fully or in part, by the (domain or E2E) data collection management services (clauses 6.5.2 and 6.6.2 of ETSI GS ZSM 002). The "Monitoring" stage of Figure 7.2.1-1 is mapped with MS in MonB5G architecture.

- The analysis stage is realized, fully or in part, by the (domain or E2E) analytics management services (clauses 6.5.3 and 6.6.3 of ETSI GS ZSM 002). The "Analysis" stage of Figure 7.2.1-1 is mapped with AE.

- The decision stage is realized, fully or in part, by the (domain or E2E) intelligence management services (clauses 6.5.4 and 6.6.4 of ETSI GS ZSM 002). The "Decision" stage of Figure 7.2.1-1 is mapped with DE.

- The execution stage is realized, fully or in part, by the domain orchestration and control management services (clauses 6.5.5 and 6.5.6 of ETSI GS ZSM 002), when the CL is deployed within a management domain. The "Execution" stage is mapped with Actuators.

- Knowledge is realized, fully or in part, by the (domain or cross-domain) data services (clause 6.4 of ETSI GS ZSM 002) The "Knowledge" of Figure 7.2.1-1 is mapped to store historical data for training ML algorithms in MonB5G architecture.

- The communication and interoperation between the CL stages may be realized, fully or in part, by the (domain or cross-domain) integration fabric management services. These stages in Figure 7.2.1-1 is mapped with the message bus in MonB5G.

- The primary flow of data and control messages are expressed by arrows M2A (is between MS and AE), A2D (is between AE and DE), D2E (is between DE and Actuator) and E2M (is between Actuator and MS)

- The double-headed arrows K1 (Store historical information), K2 (Store historical analytics insights), K3 (Store historical workflows) and K4 (Store historical actions)
== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000321r1_ZSM_POC_Proposal__Zero-touch_closed-control_security_managem.docx ZSM(22)000321r1] - [[media:ZSM POC 7.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Feb 2023, PoC public Demo at IoT solutions World congress (Barcelona, Jan 31 – Feb 2) or Mobile World Congress (Barcelona, Feb 27– March 2) as [https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000033_ETSI_ZSM_PoC__7_-_demo_at_IoTSWC__2023__Barcelona.png ZSM(23)000033]

== Other links ==
More details about the PoC content can be found in [https://www.monb5g.eu/dissemination-n-communication/ MonB5G project]’s dissemination and communication activities.

== PoC Reports ==
* Contributions to ISG ZSM expected in November 2022, Jan 2023.
* PoC #7 Final report, 28 Feb 2023, in [[ZSM(23)000050 ETSI ZSM PoC 7 - Final Report.pdf|ZSM(23)000050]] "ETSI ZSM_PoC 7 - Final Report"

PoC 7 Zero-touch closed-control security management of attacks detection and mitigation.

2023-02-07T09:57:08Z

Vreck: Added link to Demo 1 contribution

== PoC Team ==
* CTTC
* EURECOM
* NEC
* OTE

== Main Contact ==
* Engin Zeydan (engin.zeydan''_at_''cttc.cat)
== Abstract ==
Demonstration of closed loop automation for mitigating against DDoS attacks from MTC (Machine Type Communication) devices on 5G Core Network (CN) components,

The proposed framework is aligned with the "Figure 7.2.1-1: Functional view of a Closed Loop and its stages within the ZSM framework" in ZSM009-1. The mapping of the in-scope management components of MonB5G with ZSM services and capabilities defined in Section 7.2 Functional view is as follows:

- The monitoring stage is realized, fully or in part, by the (domain or E2E) data collection management services (clauses 6.5.2 and 6.6.2 of ETSI GS ZSM 002). The "Monitoring" stage of Figure 7.2.1-1 is mapped with MS in MonB5G architecture.

- The analysis stage is realized, fully or in part, by the (domain or E2E) analytics management services (clauses 6.5.3 and 6.6.3 of ETSI GS ZSM 002). The "Analysis" stage of Figure 7.2.1-1 is mapped with AE.

- The decision stage is realized, fully or in part, by the (domain or E2E) intelligence management services (clauses 6.5.4 and 6.6.4 of ETSI GS ZSM 002). The "Decision" stage of Figure 7.2.1-1 is mapped with DE.

- The execution stage is realized, fully or in part, by the domain orchestration and control management services (clauses 6.5.5 and 6.5.6 of ETSI GS ZSM 002), when the CL is deployed within a management domain. The "Execution" stage is mapped with Actuators.

- Knowledge is realized, fully or in part, by the (domain or cross-domain) data services (clause 6.4 of ETSI GS ZSM 002) The "Knowledge" of Figure 7.2.1-1 is mapped to store historical data for training ML algorithms in MonB5G architecture.

- The communication and interoperation between the CL stages may be realized, fully or in part, by the (domain or cross-domain) integration fabric management services. These stages in Figure 7.2.1-1 is mapped with the message bus in MonB5G.

- The primary flow of data and control messages are expressed by arrows M2A (is between MS and AE), A2D (is between AE and DE), D2E (is between DE and Actuator) and E2M (is between Actuator and MS)

- The double-headed arrows K1 (Store historical information), K2 (Store historical analytics insights), K3 (Store historical workflows) and K4 (Store historical actions)
== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000321r1_ZSM_POC_Proposal__Zero-touch_closed-control_security_managem.docx ZSM(22)000321r1] - [[media:ZSM POC 7.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Feb 2023, PoC public Demo at IoT solutions World congress (Barcelona, Jan 31 – Feb 2) or Mobile World Congress (Barcelona, Feb 27– March 2) as [https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2023/ZSM(23)000033_ETSI_ZSM_PoC__7_-_demo_at_IoTSWC__2023__Barcelona.png ZSM(23)000033]

== Other links ==
More details about the PoC content can be found in [https://www.monb5g.eu/dissemination-n-communication/ MonB5G project]’s dissemination and communication activities.

== PoC Reports ==
* Contributions to ISG ZSM expected in November 2022, Jan 2023.
* PoC Report, Feb 2023, PoC-Project-End Feedback with final presentation.

PoC Framework

2023-02-01T08:00:41Z

Vreck: changed the affiliation of Laurent Ciavaglia

=== ZSM ISG PoCs ===
ZSM ISG has developed a PoC Framework to coordinate and promote multi-vendor Proofs of Concept illustrating key aspects of NFV ISG work.

=== PoC Framework Document ===
The PoC Framework document can be downloaded at: [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM006-PoC Framework].

Templates for PoC Proposals and PoC Reports are linked hereafter.

=== Templates ===

[[Media:ZSM_PoC_proposal_template_v2.doc | PoC Proposal Template (word)]]

[[Media:PoC_report_template.doc | PoC Report Template (word)]]

=== PoC Topics ===
ISG ZSM builds and maintains a list of '''PoC Topics for which very specific feedback is requested from the PoC Projects''', learn more at [[PoC Topics]]

=== ETSI CTI Support ===

The ETSI Center for Testing and Interoperability (CTI) has experience in supporting the organization of technology evaluations and interoperability events (in many ways similar to PoCs).

This experience may be useful to assist the PoC teams with test expertise, administration and project management support.

ZSM ISG PoC Teams may request CTI assistance by [mailto:CTI_Support@etsi.org?Subject=ZSM_ISG_PoC-Support_Request contacting ETSI CTI].

=== ZSM PoC Management Team ===

* Role
As defined in the ZSM PoC Framework, the team is in charge of administering the PoC activity process. 
These tasks include : 
- maintaining and making available the PoC topics; 
- reviewing PoC proposals and PoC reports against the acceptance criteria; 
- declaring the acceptance and end of each PoC; 
- compiling the accepted PoC Proposals and Reports and making them available to the ISG ZSM; 
- monitoring the PoC project timelines, and sending the appropriate reminders to the PoC teams (for expected contributions, PoC report, etc.); 

* Composition of the ZSM PoC Management Team:
** Jose Antonio Ordoñez-Lucena (Telefonica);
** Junsheng Chu (ZTE);
** Laurent Ciavaglia (Nokia);
** Michael Klotz (Deutsche Telekom);
** Diego Lopez (Telefonica);
** Lan Zou (Huawei);

=== About ZSM ISG ===
Learn more [http://www.etsi.org/technologies-clusters/technologies/zero-touch-network-service-management about ZSM at ETSI]

PoC 6 Security SLA assurance in 5G network slices.

2023-01-31T15:09:28Z

Vreck: /* PoC Proposal */

== PoC Team ==
* Telefónica
* Universidad de Murcia
* Montimage
* CTTC
* THALES
* EURESCOM

== Main Contact ==
* Antonio Pastor (antonio.pastorperales''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
This PoC aims to showcase a security closed-loop across multiple domains and sites interconnected using a security framework based on ZSM Reference Architecture (ZSM 002) and an E2E slice orchestration solution based on the principles of ZSM 003. To that end, the demo showcases the request and implementation for two network slices with specific security demands expressed as Security Service Level Agreements (SSLAs) between a 5G network slice Broker and a 5G operator. The PoC will also implement closed-loop automation to ensure the SSLAs compliance in case of security breaches. Two different network slices will be deployed and monitored, one related to providing secure slice connectivity between and access and a 5G Core network domains and the second for IoT-related services.

The solution is based on the technology developed in the INSPIRE-5Gplus EU-funded project [1]. This project has taken the ZSM reference architecture as the baseline to create a solution to address security demands and develop several security enablers. It will demonstrate how they can be integrated to address security problems.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000230r1_ZSM_PoC_Proposal_Security_SLA_assurance_in_5G_network_slices.docx ZSM(22)000230r1] - [[media:ZSM POC 6.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Sept 2022, PoC public Demo at ETSI Security Conference, 3-5th October 2022 [2]

== Other links ==
[1] H2020 project INSPIRE-5Gplus: https://www.inspire-5gplus.eu/

[2] Video available at: https://www.youtube.com/watch?v=b9H4PYUeYEQ

== PoC Reports ==
* Contributions on lessons learnt, Oct 2022, Feedback and insight, identification, and contributions roadmap in open ZSM WI.
* PoC Report, Nov 2022, PoC-Project-End Feedback with final presentation.

PoC 6 Security SLA assurance in 5G network slices.

2023-01-31T15:08:49Z

Vreck: added Rodrigo Asensio Garriga to the list of UMU contacts

== PoC Team ==
* Telefónica
* Universidad de Murcia
* Montimage
* CTTC
* THALES
* EURESCOM

== Main Contact ==
* Antonio Pastor (antonio.pastorperales''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
This PoC aims to showcase a security closed-loop across multiple domains and sites interconnected using a security framework based on ZSM Reference Architecture (ZSM 002) and an E2E slice orchestration solution based on the principles of ZSM 003. To that end, the demo showcases the request and implementation for two network slices with specific security demands expressed as Security Service Level Agreements (SSLAs) between a 5G network slice Broker and a 5G operator. The PoC will also implement closed-loop automation to ensure the SSLAs compliance in case of security breaches. Two different network slices will be deployed and monitored, one related to providing secure slice connectivity between and access and a 5G Core network domains and the second for IoT-related services.

The solution is based on the technology developed in the INSPIRE-5Gplus EU-funded project [1]. This project has taken the ZSM reference architecture as the baseline to create a solution to address security demands and develop several security enablers. It will demonstrate how they can be integrated to address security problems.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000230r1_ZSM_PoC_Proposal_Security_SLA_assurance_in_5G_network_slices.docx ZSM(22)000230] - [[media:ZSM POC 6.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Sept 2022, PoC public Demo at ETSI Security Conference, 3-5th October 2022 [2]

== Other links ==
[1] H2020 project INSPIRE-5Gplus: https://www.inspire-5gplus.eu/

[2] Video available at: https://www.youtube.com/watch?v=b9H4PYUeYEQ

== PoC Reports ==
* Contributions on lessons learnt, Oct 2022, Feedback and insight, identification, and contributions roadmap in open ZSM WI.
* PoC Report, Nov 2022, PoC-Project-End Feedback with final presentation.

File:ZSM POC 6.pdf

2023-01-31T15:07:49Z

Vreck: Vreck uploaded a new version of File:ZSM POC 6.pdf

PoC proposal: "Security SLA assurance in 5G network slices"

PoC 6 Security SLA assurance in 5G network slices.

2022-10-27T07:06:46Z

Vreck: /* PoC Demo */

== PoC Team ==
* Telefónica
* Universidad de Murcia
* Montimage
* CTTC
* THALES
* EURESCOM

== Main Contact ==
* Antonio Pastor (antonio.pastorperales''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
This PoC aims to showcase a security closed-loop across multiple domains and sites interconnected using a security framework based on ZSM Reference Architecture (ZSM 002) and an E2E slice orchestration solution based on the principles of ZSM 003. To that end, the demo showcases the request and implementation for two network slices with specific security demands expressed as Security Service Level Agreements (SSLAs) between a 5G network slice Broker and a 5G operator. The PoC will also implement closed-loop automation to ensure the SSLAs compliance in case of security breaches. Two different network slices will be deployed and monitored, one related to providing secure slice connectivity between and access and a 5G Core network domains and the second for IoT-related services.

The solution is based on the technology developed in the INSPIRE-5Gplus EU-funded project [1]. This project has taken the ZSM reference architecture as the baseline to create a solution to address security demands and develop several security enablers. It will demonstrate how they can be integrated to address security problems.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000230_ZSM_PoC_Proposal_Security_SLA_assurance_in_5G_network_slices.docx ZSM(22)000230] - [[media:ZSM POC 6.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Sept 2022, PoC public Demo at ETSI Security Conference, 3-5th October 2022 [2]

== Other links ==
[1] H2020 project INSPIRE-5Gplus: https://www.inspire-5gplus.eu/

[2] Video available at: https://www.youtube.com/watch?v=b9H4PYUeYEQ

== PoC Reports ==
* Contributions on lessons learnt, Oct 2022, Feedback and insight, identification, and contributions roadmap in open ZSM WI.
* PoC Report, Nov 2022, PoC-Project-End Feedback with final presentation.

PoC 6 Security SLA assurance in 5G network slices.

2022-10-27T07:06:14Z

Vreck: /* PoC Demo 1 */

== PoC Team ==
* Telefónica
* Universidad de Murcia
* Montimage
* CTTC
* THALES
* EURESCOM

== Main Contact ==
* Antonio Pastor (antonio.pastorperales''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
This PoC aims to showcase a security closed-loop across multiple domains and sites interconnected using a security framework based on ZSM Reference Architecture (ZSM 002) and an E2E slice orchestration solution based on the principles of ZSM 003. To that end, the demo showcases the request and implementation for two network slices with specific security demands expressed as Security Service Level Agreements (SSLAs) between a 5G network slice Broker and a 5G operator. The PoC will also implement closed-loop automation to ensure the SSLAs compliance in case of security breaches. Two different network slices will be deployed and monitored, one related to providing secure slice connectivity between and access and a 5G Core network domains and the second for IoT-related services.

The solution is based on the technology developed in the INSPIRE-5Gplus EU-funded project [1]. This project has taken the ZSM reference architecture as the baseline to create a solution to address security demands and develop several security enablers. It will demonstrate how they can be integrated to address security problems.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000230_ZSM_PoC_Proposal_Security_SLA_assurance_in_5G_network_slices.docx ZSM(22)000230] - [[media:ZSM POC 6.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Sept 2022, PoC public Demo at ETSI Security Conference, 3-5th October 2022 [[2|[2]]]

== Other links ==
[1] H2020 project INSPIRE-5Gplus: https://www.inspire-5gplus.eu/

[2] Video available at: https://www.youtube.com/watch?v=b9H4PYUeYEQ

== PoC Reports ==
* Contributions on lessons learnt, Oct 2022, Feedback and insight, identification, and contributions roadmap in open ZSM WI.
* PoC Report, Nov 2022, PoC-Project-End Feedback with final presentation.

PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments.

2022-10-10T11:25:32Z

Vreck: /* PoC Demo */

== PoC Team ==
* Telefónica
* Fundaciò i2CAT
* NextWorks
* Interdigital
* Universidad Carlos III de Madrid

== Main Contact ==
* Jose Ordonez-Lucena (joseantonio.ordonezlucena''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
After interviews with real-world industry 4.0 verticals, participants have identified the as-is situation: nowadays, autonomous Guide Vehicles (AGV) navigate autonomously in a factory, and the vertical does not know how often it does stop, and why. The objective is to PoC is to precisely allow the vertical to gain this knowledge (business intelligence), and then use it to optimize AGV trajectories (e.g., replan trajectory).
This PoC is conceived to demonstrate the use of ZSM services and associated zero-touch management capabilities to provision a private 5G network on-demand. This private 5G network will be used to enhance autonomous navigation of AGV in the shop floor of a factory, allowing a remote worker to keep track of AGV trajectory and alert him/her on unexpected incidents (also known as disturbances) that cause deviations from the planned route. When the unexpected incident happens, the AGV slows down or stops, captures a photo on what is in front of it with the on-board camera, and sends the photo to a pre-trained obstacle detection function. This application identifies that the root cause of the incident is an obstacle, and notifies the remote worker accordingly, with the coordinates where the obstacle is, together with the photo taken.
The private 5G network will not be confined to on-premises infrastructure; in fact, it will rely on the capabilities of telco edge computing to host obstacle detection function. The result is a PNI-NPN. To make an agile yet efficient provisioning of the PNI-NPN, network slicing will be used.
== PoC Proposal ==
Full PoC proposal on etsi portal as
[http://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000125r1_ZSM_PoC_Proposal_on-demand_non-public_networks_for_i40_docx ZSM(22)000125r1] - [[media:ZSM POC 5.pdf|Download pdf]]
== PoC Topics ==
This PoC is WORKING on:
* Topic 2 - [[Topic2 - Automation in Multi-Stakeholder Ecosystems|Automation in Multi-Stakeholder Ecosystems]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]
== PoC Demo ==
* Demo 1, June 2022, Showcasing PoC results at 2022 EuCNC & 6G Summit (EuCNC’22). 7-10 June 2022, Grenoble (France).
* Demo 2, ZSM#20, 10-13 October 2022, Dublin (Ireland)

== Other links ==
[1]  [https://www.5gclarity.com/ H2020 project 5G-CLARITY]

[2]  [https://www.5gzorro.eu/ H2020 project 5GZORRO]

[3]   3GPP TS 23.501, “System architecture for the 5G System (5GS)”.

[4]   https://i2cat.net/project-cat/industry-4-0/

[5]   https://www.5tonic.org

[6]   Vidal, I.; Nogales, B.; Lopez, D.; Rodríguez, J.; Valera, F.; Azcorra, A. “A Secure Link-Layer Connectivity Platform for Multi-Site NFV Services”. Electronics 2021, 10, 1868. DOI: https://doi.org/10.3390/electronics10151868

[7]   [https://open5gs.org Open5GS]

== PoC Reports ==
* Contribution on lessons learned, June 2022, Feedback on lessons learnt about the PoC, in order to make improvements when executing the PoC in production factory networks (see clarifications on portable testbed vs in-factory setup in Section 2.2).
* Feedback to ISG ZSM on potential improvements, June 2022, This PoC relates to ZSM 002, ZSM 003 and ZSM 008. Potential improvements of these standards, if any, might be discovered by the PoC, and will be input to contributions to work items.
* PoC Report, July 2022, Final feedback and PoC report to ETSI ZSM

Ongoing PoCs

2022-10-04T13:08:23Z

Vreck:

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

* '''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
** EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch

* '''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
** Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice

* '''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
** China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University

* '''[[PoC 4 Autonomous network slice management]]'''
** DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.

* '''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
** Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid

* '''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
** Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM

* '''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
** CCTC - EURECOM - NEC - OTE

File:ZSM POC 7.pdf

2022-10-04T13:07:23Z

Vreck:

PoC 7 Zero-touch closed-control security management of attacks detection and mitigation.

2022-10-04T13:00:36Z

Vreck: /* Abstract */

== PoC Team ==
* CTTC
* EURECOM
* NEC
* OTE

== Main Contact ==
* Engin Zeydan (engin.zeydan''_at_''cttc.cat)
== Abstract ==
Demonstration of closed loop automation for mitigating against DDoS attacks from MTC (Machine Type Communication) devices on 5G Core Network (CN) components,

The proposed framework is aligned with the "Figure 7.2.1-1: Functional view of a Closed Loop and its stages within the ZSM framework" in ZSM009-1. The mapping of the in-scope management components of MonB5G with ZSM services and capabilities defined in Section 7.2 Functional view is as follows:

- The monitoring stage is realized, fully or in part, by the (domain or E2E) data collection management services (clauses 6.5.2 and 6.6.2 of ETSI GS ZSM 002). The "Monitoring" stage of Figure 7.2.1-1 is mapped with MS in MonB5G architecture.

- The analysis stage is realized, fully or in part, by the (domain or E2E) analytics management services (clauses 6.5.3 and 6.6.3 of ETSI GS ZSM 002). The "Analysis" stage of Figure 7.2.1-1 is mapped with AE.

- The decision stage is realized, fully or in part, by the (domain or E2E) intelligence management services (clauses 6.5.4 and 6.6.4 of ETSI GS ZSM 002). The "Decision" stage of Figure 7.2.1-1 is mapped with DE.

- The execution stage is realized, fully or in part, by the domain orchestration and control management services (clauses 6.5.5 and 6.5.6 of ETSI GS ZSM 002), when the CL is deployed within a management domain. The "Execution" stage is mapped with Actuators.

- Knowledge is realized, fully or in part, by the (domain or cross-domain) data services (clause 6.4 of ETSI GS ZSM 002) The "Knowledge" of Figure 7.2.1-1 is mapped to store historical data for training ML algorithms in MonB5G architecture.

- The communication and interoperation between the CL stages may be realized, fully or in part, by the (domain or cross-domain) integration fabric management services. These stages in Figure 7.2.1-1 is mapped with the message bus in MonB5G.

- The primary flow of data and control messages are expressed by arrows M2A (is between MS and AE), A2D (is between AE and DE), D2E (is between DE and Actuator) and E2M (is between Actuator and MS)

- The double-headed arrows K1 (Store historical information), K2 (Store historical analytics insights), K3 (Store historical workflows) and K4 (Store historical actions)
== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000321r1_ZSM_POC_Proposal__Zero-touch_closed-control_security_managem.docx ZSM(22)000321r1] - [[media:ZSM POC 7.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Feb 2023, PoC public Demo at IoT solutions World congress (Barcelona, Jan 31 – Feb 2) or Mobile World Congress (Barcelona, Feb 27– March 2)

== Other links ==
More details about the PoC content can be found in [https://www.monb5g.eu/dissemination-n-communication/ MonB5G project]’s dissemination and communication activities.

== PoC Reports ==
* Contributions to ISG ZSM expected in November 2022, Jan 2023.
* PoC Report, Feb 2023, PoC-Project-End Feedback with final presentation.

PoC 7 Zero-touch closed-control security management of attacks detection and mitigation.

2022-10-04T12:56:28Z

Vreck: Created page with "== PoC Team == * CTTC * EURECOM * NEC * OTE == Main Contact == * Engin Zeydan (engin.zeydan''_at_''cttc.cat) == Abstract == Demonstration of closed loop automation for miti..."

== PoC Team ==
* CTTC
* EURECOM
* NEC
* OTE

== Main Contact ==
* Engin Zeydan (engin.zeydan''_at_''cttc.cat)

== Abstract ==
Demonstration of closed loop automation for mitigating against DDoS attacks from MTC (Machine Type Communication) devices on 5G Core Network (CN) components,
The proposed framework is aligned with the "Figure 7.2.1-1: Functional view of a Closed Loop and its stages within the ZSM framework" in ZSM009-1. The mapping of the in-scope management components of MonB5G with ZSM services and capabilities defined in Section 7.2 Functional view is as follows:
- The monitoring stage is realized, fully or in part, by the (domain or E2E) data collection management services (clauses 6.5.2 and 6.6.2 of ETSI GS ZSM 002). The "Monitoring" stage of Figure 7.2.1-1 is mapped with MS in MonB5G architecture.
- The analysis stage is realized, fully or in part, by the (domain or E2E) analytics management services (clauses 6.5.3 and 6.6.3 of ETSI GS ZSM 002). The "Analysis" stage of Figure 7.2.1-1 is mapped with AE.
- The decision stage is realized, fully or in part, by the (domain or E2E) intelligence management services (clauses 6.5.4 and 6.6.4 of ETSI GS ZSM 002). The "Decision" stage of Figure 7.2.1-1 is mapped with DE.
- The execution stage is realized, fully or in part, by the domain orchestration and control management services (clauses 6.5.5 and 6.5.6 of ETSI GS ZSM 002), when the CL is deployed within a management domain. The "Execution" stage is mapped with Actuators.
- Knowledge is realized, fully or in part, by the (domain or cross-domain) data services (clause 6.4 of ETSI GS ZSM 002) The "Knowledge" of Figure 7.2.1-1 is mapped to store historical data for training ML algorithms in MonB5G architecture.
- The communication and interoperation between the CL stages may be realized, fully or in part, by the (domain or cross-domain) integration fabric management services. These stages in Figure 7.2.1-1 is mapped with the message bus in MonB5G.
- The primary flow of data and control messages are expressed by arrows M2A (is between MS and AE), A2D (is between AE and DE), D2E (is between DE and Actuator) and E2M (is between Actuator and MS)
- The double-headed arrows K1 (Store historical information), K2 (Store historical analytics insights), K3 (Store historical workflows) and K4 (Store historical actions)

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000321r1_ZSM_POC_Proposal__Zero-touch_closed-control_security_managem.docx ZSM(22)000321r1] - [[media:ZSM POC 7.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]

== PoC Demo ==
* Demo 1, Feb 2023, PoC public Demo at IoT solutions World congress (Barcelona, Jan 31 – Feb 2) or Mobile World Congress (Barcelona, Feb 27– March 2)

== Other links ==
[1] H2020 project INSPIRE-5Gplus: https://www.inspire-5gplus.eu/

== PoC Reports ==
* Contributions to ISG ZSM expected in November 2022, Jan 2023.
* PoC Report, Feb 2023, PoC-Project-End Feedback with final presentation.

Ongoing PoCs

2022-10-04T12:22:54Z

Vreck: creating PoC#7 entry

==List of ZSM PoCs==
This page provides the list of on-going ISG ZSM PoCs. Click on them to learn further details.

''The following ZSM Proofs of Concept are developed according to the ETSI ISG [https://www.etsi.org/deliver/etsi_gs/ZSM/001_099/006/01.02.01_60/gs_zsm006v010201p.pdf ZSM Proof of Concept Framework]. ZSM Proofs of Concept are intended to demonstrate ZSM as a viable technology. Results are fed back to the Industry Specification Group on Zero tough network and Service Management.''

''Neither ETSI, the ISG ZSM, nor their members make any endorsement of any product or implementation claiming to demonstrate or conform to ZSM. No verification or test has been performed by ETSI on any part of these ZSM Proofs of Concept.''

* '''[[PoC 1 ServoCloud: efficient lifecycle and element management automation at scale]]'''
** EnterpriseWeb - Deutsche Telekom - Sprint - Amazon Web Services - Amdocs - EXFO - InfoSim - Fortinet - Metaswitch

* '''[[PoC 2 Automated Network Slice Scaling in Multi-Site Environments]]'''
** Telefonica - Telenor - Universidad Carlos III (UC3M) - University of Patras (UoP) - Openslice

* '''[[PoC 3 Automation of Intent-based cloud leased line service]]'''
** China Telecom - China Mobile - China Unicom - Huawei Technologies - AsiaInfo Technologies - Xidian University

* '''[[PoC 4 Autonomous network slice management]]'''
** DOCOMO Communications Lab. - NTT Corp. - NTT Communications, Corp. - NTT DOCOMO, INC.

* '''[[PoC 5 On-demand Non-Public Networks (NPNs) for industry 4.0: zero-touch provisioning practices in public-private network environments. ]]'''
** Telefónica - Fundaciò i2CAT - NextWorks - Interdigital - Universidad Carlos III de Madrid

* '''[[PoC 6 Security SLA assurance in 5G network slices. ]]'''
** Telefónica - Universidad de Murcia - Montimage - CTTC - THALES - EURESCOM

* '''[[PoC 7 Zero-touch closed-control security management of attacks detection and mitigation. ]]'''
** CCTC- EURECOM - NEC - OTE

PoC 6 Security SLA assurance in 5G network slices.

2022-06-29T16:18:16Z

Vreck: /* PoC Topics */

== PoC Team ==
* Telefónica
* Universidad de Murcia
* Montimage
* CTTC
* THALES
* EURESCOM

== Main Contact ==
* Antonio Pastor (antonio.pastorperales''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
This PoC aims to showcase a security closed-loop across multiple domains and sites interconnected using a security framework based on ZSM Reference Architecture (ZSM 002) and an E2E slice orchestration solution based on the principles of ZSM 003. To that end, the demo showcases the request and implementation for two network slices with specific security demands expressed as Security Service Level Agreements (SSLAs) between a 5G network slice Broker and a 5G operator. The PoC will also implement closed-loop automation to ensure the SSLAs compliance in case of security breaches. Two different network slices will be deployed and monitored, one related to providing secure slice connectivity between and access and a 5G Core network domains and the second for IoT-related services.

The solution is based on the technology developed in the INSPIRE-5Gplus EU-funded project [1]. This project has taken the ZSM reference architecture as the baseline to create a solution to address security demands and develop several security enablers. It will demonstrate how they can be integrated to address security problems.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000230_ZSM_PoC_Proposal_Security_SLA_assurance_in_5G_network_slices.docx ZSM(22)000230] - [[media:ZSM POC 6.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 3 - [[Topic 3 - Intent-driven Closed-Loop automation|Intent-driven Closed-Loop automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Sept 2022, PoC public Demo at ETSI Security Week*/ OSM Ecosystem Day*/

== Other links ==
[1] H2020 project INSPIRE-5Gplus: https://www.inspire-5gplus.eu/

== PoC Reports ==
* Contributions on lessons learnt, Oct 2022, Feedback and insight, identification, and contributions roadmap in open ZSM WI.
* PoC Report, Nov 2022, PoC-Project-End Feedback with final presentation.

PoC 6 Security SLA assurance in 5G network slices.

2022-06-29T16:15:48Z

Vreck: /* PoC Reports */

== PoC Team ==
* Telefónica
* Universidad de Murcia
* Montimage
* CTTC
* THALES
* EURESCOM

== Main Contact ==
* Antonio Pastor (antonio.pastorperales''_at_''telefonica.com)
* Diego R. López (diego.r.lopez''_at_''telefonica.com)

== Abstract ==
This PoC aims to showcase a security closed-loop across multiple domains and sites interconnected using a security framework based on ZSM Reference Architecture (ZSM 002) and an E2E slice orchestration solution based on the principles of ZSM 003. To that end, the demo showcases the request and implementation for two network slices with specific security demands expressed as Security Service Level Agreements (SSLAs) between a 5G network slice Broker and a 5G operator. The PoC will also implement closed-loop automation to ensure the SSLAs compliance in case of security breaches. Two different network slices will be deployed and monitored, one related to providing secure slice connectivity between and access and a 5G Core network domains and the second for IoT-related services.

The solution is based on the technology developed in the INSPIRE-5Gplus EU-funded project [1]. This project has taken the ZSM reference architecture as the baseline to create a solution to address security demands and develop several security enablers. It will demonstrate how they can be integrated to address security problems.

== PoC Proposal ==
Full PoC proposal on ETSI portal as
[https://docbox.etsi.org/ISG/ZSM/05-CONTRIBUTIONS/2022/ZSM(22)000230_ZSM_PoC_Proposal_Security_SLA_assurance_in_5G_network_slices.docx ZSM(22)000230] - [[media:ZSM POC 6.pdf|Download pdf]]

== PoC Topics ==
This PoC is WORKING on:
* Topic 2 - [[Topic_3_-_Intent-driven_Closed-Loop_automation]]
* Topic 4 - [[Topic 4 - Cross-domain user-driven E2E services|Cross-domain user-driven E2E services]]

== PoC Demo ==
* Demo 1, Sept 2022, PoC public Demo at ETSI Security Week*/ OSM Ecosystem Day*/

== Other links ==
[1] H2020 project INSPIRE-5Gplus: https://www.inspire-5gplus.eu/

== PoC Reports ==
* Contributions on lessons learnt, Oct 2022, Feedback and insight, identification, and contributions roadmap in open ZSM WI.
* PoC Report, Nov 2022, PoC-Project-End Feedback with final presentation.