Ongoing PoCs: Difference between revisions

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| PoC 16
| PoC 16
| style="text-align:left;" | [https://mecwiki.etsi.org/index.php?title=PoC_16_MEC_based_Smart_production_and_scheduling MEC based Smart production and scheduling]
| style="text-align:left;" | [//mecwiki.etsi.org/index.php?title=PoC_16_MEC_based_Smart_production_and_scheduling MEC based Smart production and scheduling]
| Ongoing
| [//docbox.etsi.org/ISG/MEC/05-Contributions/2024/MEC(24)000353r1_MEC_24_000353_report_for_MEC_PoC__16.doc PoC16_Final_Report]
|-
|-
Distributed MEC based AR remote maintenance for logistics transportation
| PoC 15
| PoC 15
| style="text-align:left;" | [https://mecwiki.etsi.org/index.php?title=PoC_15_Remote_maintenance_for_logistics Distributed MEC based AR remote maintenance for logistics transportation]
| style="text-align:left;" | [//mecwiki.etsi.org/index.php?title=PoC_15_Distributed_MEC_based_AR_remote_maintenance_for_logistics_transportation Distributed MEC based AR remote maintenance for logistics transportation]
| Ongoing
| [//docbox.etsi.org/ISG/MEC/05-Contributions/2024/MEC(24)000352r1_MEC_24_000352_report_for_MEC_PoC__15.doc PoC15_Final_Report]
|-
|-
| PoC 14
| PoC 14
| style="text-align:left;" | [https://mecwiki.etsi.org/index.php?title=PoC_14_Network_resource_allocation Network resource allocation for Gaming using MEC BandWidth Management service and TeraFlowSDN]
| style="text-align:left;" | [//mecwiki.etsi.org/index.php?title=PoC_14_Network_resource_allocation Network resource allocation for Gaming using MEC BandWidth Management service and TeraFlowSDN]
| Ongoing
| Ongoing
|-
|-
| PoC 13
| PoC 13
| style="text-align:left;" | [https://mecwiki.etsi.org/index.php?title=PoC_13_MEC_infotainment_for_smart_roads_and_city_hot_spots MEC infotainment for smart roads and city hot spots]
| style="text-align:left;" | [//mecwiki.etsi.org/index.php?title=PoC_13_MEC_infotainment_for_smart_roads_and_city_hot_spots MEC infotainment for smart roads and city hot spots]
| Completed
| Completed
|-
|-
| PoC 12
| PoC 12
| style="text-align:left;" | [https://mecwiki.etsi.org/index.php?title=PoC_12_MEC_enabled_Over-The-Top_business MEC enabled OTT business]
| style="text-align:left;" | [//mecwiki.etsi.org/index.php?title=PoC_12_MEC_enabled_Over-The-Top_business MEC enabled OTT business]
| Completed
| Completed
|-
|-
| PoC 11
| PoC 11
| style="text-align:left;" | [https://mecwiki.etsi.org/index.php?title=PoC_11_Communication_Traffic_Management_for_V2X Communication Traffic Management for V2X]
| style="text-align:left;" | [//mecwiki.etsi.org/index.php?title=PoC_11_Communication_Traffic_Management_for_V2X Communication Traffic Management for V2X]
| [https://docbox.etsi.org/ISG/MEC/05-CONTRIBUTIONS/2019//MEC(19)000243r2_MEC_PoC11_report.zip PoC11_Final_Report]
| [//docbox.etsi.org/ISG/MEC/05-CONTRIBUTIONS/2019//MEC(19)000243r2_MEC_PoC11_report.zip PoC11_Final_Report]
|-
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| PoC 10
| PoC 10
| style="text-align:left;" | [https://mecwiki.etsi.org/index.php?title=PoC_10_Service-Aware_MEC_Platform_to_Enable_Bandwidth_Management_of_RAN Service-Aware MEC Platform to Enable Bandwidth Management of RAN]
| style="text-align:left;" | [//mecwiki.etsi.org/index.php?title=PoC_10_Service-Aware_MEC_Platform_to_Enable_Bandwidth_Management_of_RAN Service-Aware MEC Platform to Enable Bandwidth Management of RAN]
| Completed
| Completed
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| PoC 8
| PoC 8
| style="text-align:left;" | [http://mecwiki.etsi.org/index.php?title=PoC_8_Video_Analytics Video Analytics]
| style="text-align:left;" | [http://mecwiki.etsi.org/index.php?title=PoC_8_Video_Analytics Video Analytics]
| [https://docbox.etsi.org/ISG/MEC/05-CONTRIBUTIONS/2017//MEC(17)000194_PoC_8_Final_Report.zip PoC8_Final_Report]
| [//docbox.etsi.org/ISG/MEC/05-CONTRIBUTIONS/2017//MEC(17)000194_PoC_8_Final_Report.zip PoC8_Final_Report]
|-
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| PoC 7
| PoC 7
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| PoC 3
| PoC 3
| style="text-align:left;" | [http://mecwiki.etsi.org/index.php?title=PoC_3_Radio_aware_video_optimization_in_a_fully_virtualized_network Radio aware video optimization in a fully virtualized network]
| style="text-align:left;" | [http://mecwiki.etsi.org/index.php?title=PoC_3_Radio_aware_video_optimization_in_a_fully_virtualized_network Radio aware video optimization in a fully virtualized network]
| [https://docbox.etsi.org/ISG/MEC/05-CONTRIBUTIONS/2021/MEC(21)000338_MEC_PoC_3_Final_Report.zip PoC3_Final_Report]
| [//docbox.etsi.org/ISG/MEC/05-CONTRIBUTIONS/2021/MEC(21)000338_MEC_PoC_3_Final_Report.zip PoC3_Final_Report]
|-
|-
| PoC 2
| PoC 2
| style="text-align:left;" | [http://mecwiki.etsi.org/index.php?title=PoC_2_Edge_Video_Orchestration_and_Video_Clip_Replay_via_MEC Edge Video Orchestration and Video Clip Replay via MEC]
| style="text-align:left;" | [http://mecwiki.etsi.org/index.php?title=PoC_2_Edge_Video_Orchestration_and_Video_Clip_Replay_via_MEC Edge Video Orchestration and Video Clip Replay via MEC]
| [https://docbox.etsi.org/ISG/MEC/05-CONTRIBUTIONS/2017//MEC(17)000193_PoC_2_Final_Report.zip PoC2_Final_Report]
| [//docbox.etsi.org/ISG/MEC/05-CONTRIBUTIONS/2017//MEC(17)000193_PoC_2_Final_Report.zip PoC2_Final_Report]
|-
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| PoC 1
| PoC 1
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[[File:Poc13.png|center|600x600px|link=PoC_13_MEC_infotainment_for_smart_roads_and_city_hot_spots]]
[[File:Poc13.png|center|600x600px|link=PoC_13_MEC_infotainment_for_smart_roads_and_city_hot_spots]]


== [https://mecwiki.etsi.org/index.php?title=PoC_14_Network_resource_allocation PoC 14 Network resource allocation for Gaming using MEC BandWidth Management service and TeraFlowSDN] ==
== [//mecwiki.etsi.org/index.php?title=PoC_14_Network_resource_allocation PoC 14 Network resource allocation for Gaming using MEC BandWidth Management service and TeraFlowSDN] ==
  CTTC - xFlow Research - Telefónica
  CTTC - xFlow Research - Telefónica


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== [https://mecwiki.etsi.org/index.php?title=PoC_15_Remote_maintenance_for_logistics PoC 15 Distributed MEC based AR remote maintenance for logistics transportation] ==
== [//mecwiki.etsi.org/index.php?title=PoC_15_Distributed_MEC_based_AR_remote_maintenance_for_logistics_transportation PoC 15 Distributed MEC based AR remote maintenance for logistics transportation] ==
  China Telecom - China Telecom Intelligent NETWORK Technology - Huawei
  China Telecom - China Telecom Intelligent NETWORK Technology - Huawei


This PoC proposal describes the 5G distributed MEC solution to support remote maintenance of AR in logistics transportation. This solution can effectively improve the efficiency of logistics transportation and reduce the maintenance cost.
This PoC proposal describes the 5G distributed MEC solution to support remote maintenance of AR in logistics transportation. This solution can effectively improve the efficiency of logistics transportation and reduce the maintenance cost.
<br>
<br>
[[File:Poc15.png|center|600x600px|link=PoC_15_Remote_maintenance_for_logistics]]
[[File:Poc15.png|center|600x600px|link=PoC_15_Distributed_MEC_based_AR_remote_maintenance_for_logistics_transportation]]




== [https://mecwiki.etsi.org/index.php?title=PoC_16_MEC_based_Smart_production_and_scheduling PoC 16 MEC based Smart production and scheduling] ==
== [//mecwiki.etsi.org/index.php?title=PoC_16_MEC_based_Smart_production_and_scheduling PoC 16 MEC based Smart production and scheduling] ==
  China Telecom - China Telecom Intelligent NETWORK Technology - Huawei
  China Telecom - China Telecom Intelligent NETWORK Technology - Huawei



Latest revision as of 08:15, 18 September 2024

Overview of Reports

Distributed MEC based AR remote maintenance for logistics transportation
PoC Num Description Final Report
PoC 16 MEC based Smart production and scheduling PoC16_Final_Report
PoC 15 Distributed MEC based AR remote maintenance for logistics transportation PoC15_Final_Report
PoC 14 Network resource allocation for Gaming using MEC BandWidth Management service and TeraFlowSDN Ongoing
PoC 13 MEC infotainment for smart roads and city hot spots Completed
PoC 12 MEC enabled OTT business Completed
PoC 11 Communication Traffic Management for V2X PoC11_Final_Report
PoC 10 Service-Aware MEC Platform to Enable Bandwidth Management of RAN Completed
PoC 9 MEC platform to enable low-latency Industrial IoT Completed
PoC 8 Video Analytics PoC8_Final_Report
PoC 7 Multi-Service MEC Platform for Advanced Service Delivery Completed
PoC 6 Healthcare – Dynamic Hospital User, IoT and Alert Status management Completed
PoC 5 Enterprise Services Completed
PoC 4 FLIPS – Flexible IP-based Services Completed
PoC 3 Radio aware video optimization in a fully virtualized network PoC3_Final_Report
PoC 2 Edge Video Orchestration and Video Clip Replay via MEC PoC2_Final_Report
PoC 1 Video User Experience Optimization via MEC - A Service Aware RAN PoC Completed

List of PoCs

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

The following MEC Proofs of Concept are developed according to the ETSI ISG MEC Proof of Concept Framework. MEC Proofs of Concept are intended to demonstrate MEC as a viable technology. Results are fed back to the Industry Specification Group on Mobile Edge Computing.

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

To request a ETSI MEC PoC, please contact CTI_Support@etsi.org.

PoC 1 Video User Experience Optimization via MEC - A Service Aware RAN PoC

Intel - China Mobile - iQiYi

Through the Video UE Optimization application running on the MEC server, the MEC application is able to recognize which are the paid video streams from the content provider. From there, the MEC application will assign higher priority to those video streams by ensuring higher bit rate. As a result, the paid subscribers will have a more guaranteed user experience when streaming video from the designated content provider.

Poc1.png


PoC 2 Edge Video Orchestration and Video Clip Replay via MEC

Nokia - EE - Smart Mobile Labs

Through the Edge Video Orchestration application running on the MEC server, the end user is able to receive live video streams from professional stadium cameras in real time. The user can choose the camera angle and view video replays provided locally. All media is produced, injected and played out locally, without the need to modify core network elements. Backhaul and core capacity is not impacted.

Poc2.png


PoC 3 Radio aware video optimization in a fully virtualized network

InterDigital - Bristol is Open - Intracom - CVTC - Essex University

This PoC is demonstrating a video optimisation application aware of the Radio conditions in the cell, where MEC application is co-located with eNB and communicating with video content server, and quality of video streams are adjusted according to radio conditions of the users. As a result, video streams and the quality perceived by users will be improved thanks to the usage of MEC video optimization application.

Poc3.png


PoC 4 FLIPS – Flexible IP-based Services

Telecom Italia - Intel UK Corporation - Eurecom - Politecnico di Torino

An operator-based MEC Application is designed to transparently accelerate delivery of IP-based content and streaming media. This Application additionally allows exposure of in-network surrogate server to allow operators to offer Surrogate-as-a-Service for web-based media delivery

Poc4.png


PoC 5 Enterprise Services

Saguna - Adva Optical Networking - Bezeq International

se of MEC for Enterprise by implementation of a local breakout for the enterprise users

PoC5.png


PoC 6 Healthcare – Dynamic Hospital User, IoT and Alert Status management

Brocade - Gigaspaces - Advantech - Saguna - Vasona - Vodafone

This POC considers a typical ‘Healthcare’ use-case where a Hospital is able to assign a cellular access hierarchy (using network slicing) and open access (at the edge) to local systems depending on managed access rights. It also demonstrates dynamic network slicing based on Hospital ‘alert’ status

Poc6.png



PoC 7 Multi-Service MEC Platform for Advanced Service Delivery

Quortus Ltd - Argela - Turk Telecom

Through a single, unified infrastructure, NFV-O, and cloud orchestration system, this MEC PoC demonstrates the ability to support multiple MEC platforms and applications residing on shared and common computing infrastructure, each providing a unique value-add on the traffic traversing platform.

link=http://mecwiki.etsi.org/index.php?title=PoC_7_Multi-Service_MEC_Platform_for_Advanced_Service_Delivery Multi-Service



PoC 8 Video Analytics

Nokia - Vodafone Hutchison Australia - SeeTec

This MEC PoC submission is about a video analytics solution that leverages MEC for analyzing raw video streams of LTE-connected surveillance cameras and forwarding of relevant incidents to the local control room,

Poc8.png


PoC 9 MEC platform to enable low-latency Industrial IoT

Vasona Networks - RIFT.io - Xaptum - Oberthur Technologies - Intel Corporation - Vodafone

This PoC considers a typical Industry 4.0 (RAMI 4.0 - Platform 4.0 Industrie)* IoT use-case for latency, mobility and location sensitive applications, wherein a MEC host with local RAN breakout can enable massively scalable real-time duplex trusted transit delivery of data between IoT devices (sensors, actuators, control systems etc.) and cloud based industrial applications that leverage low-latency transactions with real-time meta-data on localized usage, security and QoS.

Poc9.png


PoC 10 Service-Aware MEC Platform to Enable Bandwidth Management of RAN

Industry Technology Research Institute - Linker Network - FarEasTone

This PoC utilizes two application contexts including Enterprise Video Call/VoIP and Tele-Drone to demonstrate the feature BandwidthManager of ETSI MEC FEATUREs defined in Mobile Edge Computing (MEC); Technical Requirements (ETSI GS MEC 002 V1.1.1)

Poc10.png


PoC 11 Communication Traffic Management for V2X

KDDI Corporation - Saguna Networks Ltd. - Hewlett Packard Enterprise

Connected vehicles generate various data with different priorities and the transportation road congestion may give lead to mobile network congestion, which interfere with urgent V2X communication. In the PoC, it is demonstrated how to harmonize and prioritize network traffic sent for vehicles with MEC system by using MEC services in order to control the mobile network congestion.

Poc11.png


PoC 12 MEC enabled Over-The-Top business

China Unicom - ZTE - Intel - Tencent - Wo video - UnitedStack

This ETSI MEC PoC is about enabling OTT business on MEC platform: distributing OTT’s CDN to the MEC platform in the network of China Unicom. The combination of CDN and MEC can reduce the RTT and increase the HTTP download rate.

Poc12.png


PoC 13 MEC infotainment for smart roads and city hot spots

TIM - Intel - Vivida - ISMB - City of Turin

The use case aims at demonstrating innovative 4G/5G infotainment services for both pedestrians and car drivers/passengers in smart roads and city hot spots.

Poc13.png

PoC 14 Network resource allocation for Gaming using MEC BandWidth Management service and TeraFlowSDN

CTTC - xFlow Research - Telefónica

MEC BandWidth Management (BWM) service and TeraFlowSDN can be used to provide dedicated resources for network resource allocation for Gaming. BWM allows applications to allocate specific amounts of bandwidth to gaming applications, while TeraFlowSDN provides a way to manage and control traffic flows.

This can help to ensure that gaming traffic has priority over other traffic, which can improve the gaming experience for users. The tests of this compute-network interface can also be interesting for upcoming 6G networks.

Poc14.png


PoC 15 Distributed MEC based AR remote maintenance for logistics transportation

China Telecom - China Telecom Intelligent NETWORK Technology - Huawei

This PoC proposal describes the 5G distributed MEC solution to support remote maintenance of AR in logistics transportation. This solution can effectively improve the efficiency of logistics transportation and reduce the maintenance cost.

Poc15.png


PoC 16 MEC based Smart production and scheduling

China Telecom - China Telecom Intelligent NETWORK Technology - Huawei

This PoC proposal describes the 5G MEC solution supporting industrial manufacturing for industrial production, detection, scheduling used in Park. With this solution, industrial production efficiency will be greatly improved.

Poc16.png