Download (PDF) https://drive.google.com/file/d/1MkBjZkVG30wKqwCMOm8GAmEYJu9hb4fE/view Non-Public Networks (NPNs) are a feature of 5G technology designed for localized non-public use. For media organizations, NPNs may offer the possibility of deploying fixed and nomadic networks, where fixed networks would cover small areas like studios or extend to the entire premises as a so-called campus network. What are Non-Public Networks? Media production facilities are increasingly adopting IP-based infrastructure. The ubiquity of IP networks and technologies enables increasing efficiency and effectiveness in production, process automation, and greater flexibility. Content production and contribution could leverage 5G as a highly reliable wireless technology to enhance existing or enable new workflows in the areas of newsgathering, remote production and live event coverage as well as in dedicated production facilities. NPNs are a key enabler for the deployment of media production scenarios. They are currently under standardization in 3GPP, with the first functionalities specified in Release 16. NPNs offer the possibility of providing 5G network services to organizations without entirely relying on public mobile networks. The latter may not be able to support certain applications, for example those requiring very low latency, highly robust services or business-critical data privacy – meeting such requirements may not be the primary business focus of public mobile network operators. NPNs therefore enable the deployment of 5G to provide services that may not be available in public mobile networks and are tailored to the needs of a specific industry, in this case media organizations. To enable a full degree of interoperability, NPNs should be connected to existing media production network infrastructure. Applications for the media industry NPNs may satisfy the demanding performance requirements of content production, such as very low latency and precise synchronization, and with respect to security, privacy and liability, by means of isolation from public networks, using dedicated resources and associated security credentials. They may be deployed stand-alone or in conjunction with public networks. Different NPN deployment options may be suitable depending on the type and scope of the production events, preferred business models and regulatory options. NPNs can be deployed as temporary or permanent. Permanent networks may cover a geographically limited area, as small as a small a single building or venue, or an entire campus used by audiovisual media production organizations. For nomadic or temporary productions (e.g. touring events, festivals, etc.), the preferred option may be a stand-alone NPN that can support the production anywhere and at any time. It would function independent of public mobile network coverage and avoid the need for negotiation of contracts and service-level agreements with multiple, diverse mobile network operators across country borders. For productions with less demanding requirements (e.g. newsgathering, low-cost live), service-level agreements and commercial arrangements between different types of network operators will need to be compared in order to obtain the right balance between functionality and cost with respect to the potential use of NPNs. The choice of deployment options for an NPN will be based on considerations around spectrum availability, network ownership and operation, and security, privacy and liability. The deployment of NPNs for media production and contribution can: Provide traffic isolation from other networks to ensure stable performance, reliability, security, or privacy. Meet requirements traditionally out of scope of general-purpose public mobile networks. Provide robust security and privacy features through, for example, dedicated credentials for on-boarded equipment. Facilitate self-management and operation without the need to rely on third parties 5G-MAG and Non-Public Networks 5G-MAG is monitoring the standardization of NPNs and their relevant features in 3GPP to understand the road map, timelines and expected support for audiovisual media production applications in both network and user equipment. 5G-MAG analyses different national approaches and emerging licensing models for making spectrum available for NPNs. 5G-MAG believes that the existence, across Europe and possibly worldwide, of a common spectrum range with homogeneous frequency channelization for NPNs in media production would help create economies of scale for their commercial deployment and operation. Furthermore, technical harmonization of protocols and workflows for spectrum access for NPNs in media production would be beneficial for both vendors and users. 5G-MAG believes that access to spectrum for nomadic NPNs and short-term deployments also needs appropriate regulatory frameworks, as the current national regulatory approaches are primarily suitable for stationary and long-term NPN deployments. Beyond spectrum access, 5G-MAG also studies regulatory aspects that may be relevant for the deployment of NPNs, such as numbering and network identifiers, roaming between public networks and NPNs, networksharing approaches and site regulations. Useful Links 3GPP TS 22.263 v17.2.0 “Service requirements for Video, Imaging and Audio for Professional Applications (VIAPA)” 3GPP TS 23.501 v16.6.0 “System architecture for the 5G System (5GS)”

Download (PDF) ABOUT THE REPORT This is a report produced by the 5G-MAG Workgroup CP (Content Production - Standards and Architecture). Current version of the report: v.1.0 Date of publication: 7th September 2023 ABSTRACT 5G-MAG has studied deployment scenarios for live media production using Non-Public Networks (NPNs), both stand-alone and in public networks. The 5G-MAG report " Towards a comprehensive 5G-based toolbox for live media production " presents high-level scenarios involving 5G devices for media applications. Before using them, devices need to first gain access to the 5G network though several registration and authentication procedures. After use, devices should be "de-registered", i.e. have their access rights revoked. This report provides: Information on the registration, authentication and onboarding procedures for devices in NPNs guidelines for users and operators of 5G NPNs in relation to aspects such as network identifiers and storage and local and remote provisioning of credentials REQUEST FOR FEEDBACK 5G-MAG welcomes feedback from the community to this document. If you have comments on the report, please submit them using our GitHub repository for "Request for Feedback" https://github.com/5G-MAG/Requests-for-Feedback 5G-MAG members may take further actions on this document according to the comments received.

We are happy to announce the release of version 1.2.1 of the 5GMS Application Server. This is a bug-fix release to address two issues found during deployment. The first issue was that ingest requests to upstream media origin servers did not use SNI for TLS connections. This caused ingest fetches to media origins, that require SNI in order to function correctly (name based virtual hosting), to fail which resulted in the media not playing back. This is now corrected and the OpenResty web proxy is instructed to use SNI in its TLS connections. The second issue affected some versions of OpenResty when dynamic redirection learning was used. In these cases the cache key for the original redirected request and the cache key for the redirected URL were calculated as the same value causing a recursive loop and then failure to fetch from the redirected upstream media source. This manifested as a 500 error upon request of the redirected URL. A simple change to distinguish these two cache keys fixed this issue. 👉 The release can be found at: https://github.com/5G-MAG/rt-5gms-application-server/releases/tag/rt-5gms-application-server-1.2.1 The full change log can be found on the release page. 👏 Big thank you to the contributor David Waring ( BBC ). 👉 More information about 5G-MAG and the 5G-MAG Reference Tools can be found on our website: developer.5g-mag.com/

Download (PDF) ABOUT THE REPORT This is a report produced by the 5G-MAG Workgroup CD (Content Distribution - Standards and Architecture). Current version of the report: v.1.0 Date of publication: 1st December 2023 ABSTRACT Time and Frequency Interleaving (TFI) is a key feature for robust broadcast transmissions in time-frequency varying environments, in particular for mobile reception. TFI was considered and evaluated by multiple companies during the 3GPP Rel-16 standardisation of LTE-based 5G Broadcast with significant support from companies. Furthermore, time interleaving has also been proposed for NR MBS Broadcast Services in 3GPP Rel-17 . Multiple papers have been published on the performance of TFI for LTE-based 5G Broadcast (BBC, Qualcomm). In summary, a significant number of papers and work from different sources is available showing the performance benefits of TFI and hence, the consensus view within 5G-MAG is that addressing the topic in 3GPP specifications would be valuable to increase the robustness of the broadcast services specified by 3GPP. To support the specification development in 3GPP, 5G-MAG has produced this 5G-MAG Report summarising key results and potential specification impact to introduce Time-Frequency Interleaving for broadcast services in 5G systems. REQUEST FOR FEEDBACK 5G-MAG welcomes feedback from the community to this document. If you have comments on the report, please submit them using our GitHub repository for "Request for Feedback" https://github.com/5G-MAG/Requests-for-Feedback 5G-MAG members may take further actions on this document according to the comments received.

We are thrilled to announce that we have released major updates to our 5G Media Streaming reference implementation. 👉 On the Data Network side version 1.4.0 of our 5GMS Application Function now supports consumption reporting, network assistance and dynamic policies. Moreover, the implementation was uplifted to be compliant with 3GPP TS 26.512 version 17.7.0. The complete release notes including additional improvements and bugfixes can be found here: https://github.com/5G-MAG/rt-5gms-application-function/releases/tag/rt-5gms-application-function-v1.4.0 👉 5GMS Application Server also received an update fixing compatibility issues and minor bugs: https://github.com/5G-MAG/rt-5gms-application-server/releases/tag/rt-5gms-application-server-1.2.2 👉 On the User Equipment side we have released version 1.1.0 of our 5GMS Aware Application, 5GMS Media Session Handler, 5GMS Media Stream Handler and 5GMS Common Android Library. The releases include support for consumption reporting as well as UI changes and minor improvements and bugfixes. More information can be found in the release notes: 5GMS Aware Application: https://github.com/5G-MAG/rt-5gms-application/releases/tag/rt-5gms-application-v1.1.0 5GMS Media Session Handler: https://github.com/5G-MAG/rt-5gms-media-session-handler/releases/tag/rt-5gms-media-session-handler-v1.1.0 5GMS Media Stream Handler: https://github.com/5G-MAG/rt-5gms-media-stream-handler/releases/tag/rt-5gms-media-stream-handler-v1.1.0 5GMS Common Android Library: https://github.com/5G-MAG/rt-5gms-common-android-library The development of the 5G-MAG Reference Tools continues at full speed including work on 5G Media Streaming, 5G Broadcast, 5MBS and XR, among other projects. All information can be found on our website: developer.5g-mag.com A big thank you to all the contributors to the Reference Tools.

We are thrilled to announce that we have released a series of repositories on XR and Immersive Media development. All information can be found in our renewed GitHub documentation: https://5g-mag.github.io/Getting-Started/pages/xr-media-integration-in-5g/ The initial releases include reference implementations for content playback and content generation compliant with MPEG-I Scene Description specification as defined in ISO/IEC 23090-14 . Work is on-going to include more functionalities and address the integration of 3D and XR assets in 5G communication systems. The release of the open-source repositories helps developers to get started with standardized technologies in the XR and Immersive Media ecosystem and enables the creation of content and players that can consume it. The repositories released include: Unity project to load an MPEG-I Scene Descri ption document and render it: github.com/5G-MAG/rt-xr-unity-player Native implementation of the Media Access Functions API as defined in ISO/IEC 23090-14: github.com/5G-MAG/rt-xr-maf-native Media Access Function API Unity3D  package: github.com/5G-MAG/rt-xr-maf-plugin Fork of the glTFast project wit h modifications to parse the MPEG-I Scene Description glTF extension: github.com/5G-MAG/rt-xr-gITFast Initial set of MPEG-I Scene Des cription assets: github.com/5G-MAG/rt-xr-content Initial support for extensions to Blende r to generate 3D assets: github.com/5G-MAG/rt-xr-blender-exporter A big thanks to the contributors from Qualcomm and InterDigital and the coordinator of the efforts Nils Duval (Motion Spell).

We are thrilled to announce that we have released a series of repositories on 5G Media Streaming development. All information can be found in our renewed GitHub documentation: https://5g-mag.github.io/Getting-Started/pages/5g-media-streaming/ Our new releases offer support for QoE Metrics Reporting and introduce a new " Application Provider " repository with a web-based GUI for 5GMS management. Moreover, we implemented a new website that contains documentation and tutorials:  https://5g-mag.github.io/Getting-Started/ A tutorial on how to set up QoE Metrics Reporting can be found here:  https://5g-mag.github.io/Getting-Started/pages/5g-media-streaming/tutorials/metrics-reporting.html Big thank you to all the contributors who made this possible especially David Waring, Richard Bradbury, Dev Audsin, Vuk Stojkovic, Shilin Ding, Thomas Stockhammer and Jordi Gimenez. The repositories released include: Application Provider v1.0.0: https://github.com/5G-MAG/rt-5gms-application-provider Application Function v1.4.1: https://github.com/5G-MAG/rt-5gms-application-function/releases/tag/rt-5gms-application-function-v1.4.1 Common Android Library v1.2.0: https://github.com/5G-MAG/rt-5gms-common-android-library/releases/tag/rt-5gms-common-android-library-v1.2.0 Media Stream Handler v1.2.0: https://github.com/5G-MAG/rt-5gms-media-stream-handler/releases/tag/rt-5gms-media-stream-handler-v1.2.0 Media Session Handler v1.2.0: https://github.com/5G-MAG/rt-5gms-media-session-handler/releases/tag/rt-5gms-media-session-handler-v1.2.0 5GMS Application v1.2.0: https://github.com/5G-MAG/rt-5gms-application/releases/tag/rt-5gms-application-v1.2.0 5GMS Examples v1.1.0: https://github.com/5G-MAG/rt-5gms-examples/releases/tag/rt-5gms-examples-v1.1.0 A big thanks to the contributors from BBC, Fraunhofer FOKUS and Qualcomm and the coordinator of the efforts Daniel Silhavy (Motion Spell).

Download the 5G-MAG Report (PDF) ABOUT THE REPORT This is a report produced by the 5G-MAG Workgroup EaR (Ecosystem and Regulation). Current version of the report: v.1.0 Date of publication: 28th October 2024 ABSTRACT The implementation and deployment of mobile technologies as part of media production workflows paves the way for a new ecosystem of equipment, devices and roles in the industry. With this new ecosystem, new roles emerge, which need new definitions and clarification in their responsibilities. Some of these roles have been around for a long time but, over the years, their meaning or ownership have changed. Other roles are completely new in the context of media production and therefore require a precise introduction to foster understanding and support for them. This report: introduces traditional roles for media production and contribution based on RF/OFDM links, explains the vertical ecosystem within 5G, introduces new roles for content production and contribution networks based on NPNs, and defines responsibilities of and dependencies between these new roles. REQUEST FOR FEEDBACK 5G-MAG welcomes feedback from the community to this document. If you have comments on the report, please submit them using our GitHub repository for "Request for Feedback" https://github.com/5G-MAG/Requests-for-Feedback 5G-MAG members may take further actions on this document according to the comments received.

We are thrilled to announce the availability of new 5G-MAG Reference Tools to develop Volumetric Video experiences. All information can be found in our GitHub documentation:  https://5g-mag.github.io/Getting-Started/pages/v3c-immersive-platform A major contribution by  InterDigital  and  Philips  makes available the “V3C Immersive Platform” as part of the 5G-MAG Reference Tools. The new reference tools are currently accessible under “Early Access" ( http://www.5g-mag.com/early-access ) The initial contributions include a V3C Unity Player to visualize, test, and demo content, including support for real-time V-PCC (ISO/IEC 23090-5) and MIV (ISO/IEC 23090-12) rendering on Windows / Android. Support for V3C DASH streaming and a V3C DASH Packager tool are in the backlog. The release of the open-source repositories helps developers get started with using standardized technologies in the Volumetric Video ecosystem and enables the creation of content and video players that can consume it.   The initial contributions to the repositories include: ·       A Unity package ( rt-v3c-unity-player ) to decode and play V3C content in Unity ·       A decoder plugin library ( rt-v3c-decoder-plugin ) with V-PCC and MIV synthesizers plugins needed for the rendering of the V3C contents. A big thanks to the contributors from InterDigital and Philips.

We are happy to announce new releases of the "5G Media Streaming Application Function" and the "5G Media Streaming Application Provider - Management UI". All information can be found in our renewed GitHub documentation: https://5g-mag.github.io/Getting-Started/pages/5g-media-streaming/ The main changes include an uplift to match 3GPP TS 26.512 v17.9.1 in the Application Function and optimizations for the management of provisioning sessions in the Management UI. The detailed release notes can be found here: - Application Function: Release Release v1.4.2 - 5GMS Application Function · 5G-MAG/rt-5gms-application-function - Application Provider: Release v1.1.0 5GMS Application Provider · 5G-MAG/rt-5gms-application-provider Thank you to all the contributors, especially David Waring  ( BBC ), Dev Audsin  ( BBC ), Richard Bradbury  ( BBC ) and Vuk Stojkovic  ( Fraunhofer FOKUS ).

Download the 5G-MAG Report (PDF): https://drive.google.com/file/d/1p8HTruX3va0pOOpyzgkIn_AnfqmBCRy4/view?usp=sharing ABOUT THE REPORT This is a report produced by the 5G-MAG Workgroup CP (Content Production - Standards and Architecture). Current version of the report: v.1.0 Date of publication: 11th November 2024 ABSTRACT The 5G-MAG report "Towards a comprehensive 5G-based toolbox for live media production" identified a series of high-level scenarios where 3GPP features can be used for uplink enhancements and traffic management. This report covers the following aspects: Identification of systems and features enabling enhancements for uplink media delivery and traffic management in the content of media production and contribution applications. Description of architectures, reference points and relevant procedures in the context of uplink media delivery using 3GPP technology. Feasibility analysis of the status of the technology and its potential applicability based on 3GPP Release 17 and Release 18 specifications. Identification of possible gaps in existing specifications to support their application for uplink media delivery. REQUEST FOR FEEDBACK 5G-MAG welcomes feedback from the community to this document. If you have comments on the report, please submit them using our GitHub repository for "Request for Feedback" https://5g-mag.github.io/Requests-for-Feedback/ 5G-MAG members may take further actions on this document according to the comments received.

Download the 5G-MAG Report (PDF): https://drive.google.com/file/d/1PQ_XsKV_Y45zdLefzXejlwDjs6EEHadJ/view?usp=sharing ABOUT THE REPORT This is a report produced by the 5G-MAG Workgroup CP (Content Production - Standards and Architecture). Current version of the report: v.1.0 Date of publication: 27th January 2025 ABSTRACT This 5G-MAG report complements the publication Uplink media delivery in 5G: Architectures & Features which identified, described and analysed relevant systems and features enabling the enhancement of uplink media delivery and traffic management in the content of media production and contribution. This report expands on the following aspects: Transport protocols and features available for uplink media delivery. Identification of potential enhancements for the delivery of content over 3GPP systems. Identification of potential enhancements to video encoding. REQUEST FOR FEEDBACK 5G-MAG welcomes feedback from the community to this document. If you have comments on the report, please submit them using our GitHub repository for "Request for Feedback" https://5g-mag.github.io/Requests-for-Feedback/ 5G-MAG members may take further actions on this document according to the comments received.