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MPEG 136

MPEG 136 took place as an online conference from 2021-10-11 until 2021-10-15 .

Press Release

MPEG Issues a Call for Proposals on Dynamic Mesh Coding

At its 136th meeting, MPEG Technical Requirements jointly with MPEG Coding of 3D Graphics issued a Call for Proposals (CfP) on Dynamic Mesh Coding. A dynamic mesh sequence may require a large amount of data since it may consist of a significant amount of information changing in time. Therefore, efficient coding technologies are required to store and transmit such content. MPEG previously developed mesh coding standards; however, these standards do not consider time-varying attribute maps and connectivity information.

Companies, organizations, and experts are invited to submit proposals for this call. Parties do not need to be MPEG members to respond. A declaration of intention to respond needs to be submitted by 14 January 2022. Responses to the CfP will be evaluated during the 138th MPEG meeting in April 2022, where proponents are required to participate and present their proposals. Detailed information, including instructions on how to respond to the call for proposals, the requirements to be considered, and the test data to be used are available at http://www.mpeg.org/. For further information on the call, please contact Dr. Marius Preda (MPEG Coding of 3D Graphics Convenor) at marius.preda@it-sudparis.eu, or Dr. Igor Curcio (MPEG Technical Requirements Convenor) at igor.curcio@nokia.com.

MPEG promotes Reference Software and Conformance for Neural Network Coding to Committee Draft

MPEG recently ratified the first international standard on Neural Network Compression for Multimedia Applications (ISO/IEC 15938-17). At the 136th MPEG meeting, MPEG Video promoted ISO/IEC 15938-18 providing (i) reference software, (ii) guidelines, and (iii) assets for conformance testing to Committee Draft (CD), the first milestone of its formal approval process.

The neural network coding standard is designed as a toolbox of coding technologies. The specification contains different parameter reduction (e.g., pruning, sparsification, matrix decomposition), parameter transformation (e.g., quantization), and entropy coding methods, that can be assembled to encoding pipelines combining one or more (in the case of reduction) methods from each group. The reference software is written in Python and provides a framework defining interfaces for each of the three steps in the coding pipeline and components implementing all supported methods. Additionally, the new standard provides bitstreams for testing the conformance of decoders against the neural network coding specification (ISO/IEC 15938-17).

MPEG Promotes Third Edition of Energy-Efficient Media Consumption (Green Metadata) to Committee Draft

At the 136th MPEG meeting, MPEG Systems promoted the third edition of ISO/IEC 23001-11 Energy-Efficient Media Consumption (Green Metadata) to Committee Draft (CD) stage. ISO/IEC 23001-11 specifies metadata (Green Metadata) that facilitates the reduction of energy usage during media consumption. The metadata enable means for (a) reducing decoder power consumption, (b) reducing display power consumption, (c) media selection for the joint decoder and display power reduction, and (d) quality recovery after low-power encoding. The third edition adds three main aspects to the standard: (1) the existing green metadata for interactive signalling for remote decoder power reduction is enhanced by adding new syntax elements for a finer control of decoder complexity on a high variety of platforms and processor cores; (2) a Versatile Video Coding (VVC) Supplemental Enhancement Information (SEI) message carrying green metadata related to complexity metrics for decoder power reduction; and (3) metrics for quality recovery after low-power encoding. The development of the standard is expected to be completed by the end of 2022.

MPEG Progresses VVC Conformance Testing

At the 136th MPEG meeting, two important milestones were achieved by the MPEG Joint Video Experts Team with ITU-T SG16 in developing conformance testing for ISO/IEC 23090-3 Versatile Video Coding (VVC): (1) Conformance Testing for Versatile Video Coding (ISO/IEC 23090-15) reached Final Draft International Standard (FDIS) which provides means to test implementations of VVC for their conformance to the profile specified in VVC version 1. (2) VVC version 2 (incl. operation range extensions for higher bit depth and high bit rates) is in the last phase of its development and is planned to be finalised in January 2022. Therefore, a related conformance testing specification has been promoted to Committee Draft Amendment (CDAM) for testing the features of the new profiles in VVC version 2.

The standardisation of such tests will assist implementers of VVC in checking the proper functioning of their implementations during the development of their products. Such tests will also help the users and potential users of VVC products by providing a way to verify claims of the conformance of such products. Thus, such tests will assist the community in achieving interoperability of encoder and decoder products and will encourage the adoption and use of VVC.

MPEG Ratifies Event Messages in Tracks of the ISO Base Media File Format

At the 136th MPEG meeting, MPEG Systems has reached the last milestone of the development of a standard to carry event messages in tracks of the ISO Base Media File Format (ISOBMFF) by promoting ISO/IEC 23001-18 to Final Draft International Standard (FDIS) stage.

This specification provides a method for the carriage of event messages in tracks of the ISO Base Media File Format (ISO/IEC 14496-12). This event message track format associates the timeline of the DashEventMessageBox messages to the track timeline. The specified track format enables common ISOBMFF processing such as multiplexing and de-fragmentation. In addition, multiplexing and de-multiplexing operations using top-level DashEventMessageBox based on this event message track format are defined. The carriage in the event message track format will also make this information more easily accessible to devices that can seek through ISOBMFF formatted media files.

MPEG Completes Subjective Verification Tests for Video-based Point Cloud Compression (V-PCC)

At the 136th MPEG meeting, a subjective test to assess the performance of the new Video-based Point Cloud Compression (V-PCC) standard (ISO/IEC 23090-5) was completed by the MPEG Visual Quality Assessment advisory group. The results confirm that excellent visual quality can be achieved using bit rates between 15 and 25 Mbps. All tested V-PCC profiles show considerable compression gain (i.e., 8-9 times better) compared to the anchor Point Cloud Library (PCL) codec.

Subjective quality was assessed using rigorous methods proven in 2D video evaluation wherein a dynamic 3D point cloud is rendered to a 2D video by following a preselected camera path.

Four profiles have been subjectively tested: (i) one profile with a very simple reconstruction in 3D space and (ii) three profiles with a more sophisticated reconstruction in the 3D space. The first profile used High Efficiency Video Coding (HEVC) as the underlying video codec, while the others used either HEVC or Versatile Video Coding (VVC) as the underlying video codec. The subjective quality assessment further confirms that compelling gains can be achieved by replacing of the underlying video codec (i.e., VVC instead of HEVC) and by keeping the point cloud codec unchanged.

V-PCC is specified in ISO/IEC 23090-5:2021 — Information technology — Coded representation of immersive media — Part 5: Visual volumetric video-based coding (V3C) and video-based point cloud compression (V-PCC).

MPEG Issues a Call for LiDAR and Volumetric Point Cloud Content

MPEG Coding of 3D Graphics is currently evaluating technologies that improve its existing point cloud compression standards for volumetric scanners. To ensure that future compression standards are tailored to the needs and requirements of the industry, MPEG Coding of 3D Graphics has issued a Call for Point Cloud Content at the 136th MPEG meeting. Industry partners are now invited to propose point cloud content acquired using novel acquisition methods such as advanced LiDAR or volumetric scanners. Detailed information about the call, including means of how to respond, can be found at http://www.mpeg.org/. For further information on the call, please contact Dr. Marius Preda (MPEG Coding of 3D Graphics Convenor) at marius.preda@it-sudparis.eu.

MPEG Evaluates Responses to the Haptics Phase 1 Call for Proposals

At its 134th meeting, MPEG Technical Requirements issued a Call for Proposals (CfP) on the Coded Representation of Haptics. This CfP sought submissions of technologies that could provide efficient representation and compression of time-dependent haptic signals and were suitable for coding of timed haptic tracks that may be synchronized with audio and/or video media. This CfP was an essential part of Phase 1 of the multi-year MPEG roadmap for haptics.

At its 136th meeting, MPEG Technical Requirements concluded its evaluation of four responses to the Haptics CfP. The technologies evaluated included descriptive, human-readable representations, highly efficient psychophysical compression schemes, and support for both vibrotactile and kinesthetic devices. Based on the evaluation of these responses, a subset of the technologies has been selected to form a combined codec (termed RM0) that leverages the best of these technologies and ensures long term relevance for future use cases, including Extended Reality (XR). One of the technologies selected had excellent scores using the subjective MUSHRA tests; a second one had the best PSNR scores and is based on optimised perceptual wavelet coding. A third included technology provides a lightweight JSON framework compatible with the Khronos glTF framework, which is already extended by the MPEG-I scene description standardisation efforts, in which haptics is expected to play a significant role.

After the evaluation of the responses, MPEG will move into the collaborative phase of this effort where its members will work together to improve and fine-tune the combined RM0 technology over the next several months. It is expected that phase 1 of Haptics will reach the first milestone of standardisation (i.e., issuing a Committee Draft) by 2022.

Output documents published in MPEG 136

MPEG-I

#PartTitle
2Omnidirectional Media FormatTechnologies under Consideration for OMAF
3Versatile Video CodingTest Model 15 for Versatile Video Coding (VTM 15)
4Immersive AudioMPEG-I Immersive Audio Documentation for the Audio Evaluation Platform, Version 2
4Immersive AudioMPEG-I Immersive Audio Subjective Test Logistics
4Immersive AudioMPEG-I Immersive Audio CfP Document Set - Final
4Immersive AudioMPEG-I Immersive Audio additional instructions for Test Supervisors and Test Subjects
5Visual Volumetric Video-based Coding (V3C) and Video-based Point Cloud Compression (V-PCC)V-PCC best coding practices
5Visual Volumetric Video-based Coding (V3C) and Video-based Point Cloud Compression (V-PCC)V-PCC Test Model v16
5Visual Volumetric Video-based Coding (V3C) and Video-based Point Cloud Compression (V-PCC)V-PCC performance evaluation and anchor results
5Visual Volumetric Video-based Coding (V3C) and Video-based Point Cloud Compression (V-PCC)Subjective verification test report for V-PCC
6Immersive Media MetricsTechnologies under Consideration for ISO/IEC 23090-6
7Immersive Media MetadataWD of ISO/IEC 23090-7 AMD 1 Common Metadata for Immersive Media
7Immersive Media MetadataTechnologies under Consideration for Immersive Media Metadata
8Network based Media ProcessingTechnologies under Consideration for NBMP
9Geometry-based Point Cloud CompressionG-PCC Test Model v16
9Geometry-based Point Cloud CompressionG-PCC performance evaluation and anchor results
9Geometry-based Point Cloud CompressionCE 0.2 on content
9Geometry-based Point Cloud CompressionG-PCC codec description
9Geometry-based Point Cloud CompressionEE 13.47 on spherical coordinate geometry
9Geometry-based Point Cloud CompressionCall for LiDAR and volumetric point cloud content
10Carriage of Visual Volumetric Video-based Coding DataTechnologies under consideration on carriage of V3C data
12Immersive VideoTest Model 11 for MPEG Immersive video
12Immersive VideoCommon Test Conditions for MPEG Immersive video
12Immersive VideoCall for MPEG Immersive video Test Materials
13Video Decoding Interface for Immersive MediaProcedures for standard development and software of ISO/IEC 23090-13
13Video Decoding Interface for Immersive MediaTechnologies under Consideration for VDI
14Scene Description for MPEG MediaTechnologies under Consideration on Scene Description for MPEG Media
14Scene Description for MPEG MediaProcedures for standard development, test scenarios and reference software for ISO/IEC 23090-14 (MPEG-I Scene Description)
14Scene Description for MPEG MediaRequirements Coverage of MPEG-I Scene Description
14Scene Description for MPEG MediaExploration Experiments for MPEG-I Scene Description
14Scene Description for MPEG MediaReport of Joint Workshop on Streamed Media in Immersive Scene Descriptions
15Conformance Testing for Versatile Video CodingText of ISO/IEC 23090-15 CDAM1 Conformance testing for VVC operation range extensions
17Reference Software and Conformance for OMAFWD of Reference Software and Conformance for OMAF 2nd edition
18Carriage of Geometry-based Point Cloud Compression DataWD of ISO/IEC 23090-18 AMD 1 Support of Temporal Scalability
18Carriage of Geometry-based Point Cloud Compression DataTechnologies under Consideration for Carriage of Geometry-based Point Cloud Compression Data
24Conformance and Reference Software for Scene Description for MPEG MediaWD of Conformance and Reference Software for Scene Description for MPEG Media
25Conformance and Reference Software for Carriage of Visual Volumetric Video-based Coding DataWD of ISO/IEC 23090-25 Conformance and Reference Software for Carriage of Visual Volumetric Video-based Coding Data
26Conformance and Reference Software for Carriage of Geometry-based Point Cloud Compression DataWD of ISO/IEC 23090-26 Conformance and Reference Software for Carriage of Geometry-based Point Cloud Compression Data

MPEG-DASH

#PartTitle
1Media Presentation Description and Segment FormatsWD of ISO/IEC 23009-1 5th edition AMD2 EDRAP streaming and other extensions
1Media Presentation Description and Segment FormatsTechnologies under Consideration for DASH

MPEG-H

#PartTitle
12Image File FormatTechnology under Consideration on ISO/IEC 23008-12

MPEG-4

#PartTitle
12ISO base Media File FormatWD of ISO/IEC 14496-12:2021 AMD 1 Improved brand documentation and other improvements
12ISO base Media File FormatTechnologies under Consideration for ISOBMFF
14MP4 File FormatTechnologies under Consideration for ISO/IEC 14496-14
15Carriage of Network Abstraction Layer (NAL) Unit Structured Video in the ISO base Media File FormatTechnologies under Consideration for NAL File Format
32File Format ReferenceTechnology under consideration on ISO/IEC 14496-32 Reference Software and Conformance for File Format

MPEG-5

#PartTitle
1Essential Video CodingWhite paper on Essential Video Coding (EVC)

MPEG-B

#PartTitle
10Carriage of Timed Metadata Metrics of Media in ISO Base Media File FormatTechnologies under Consideration for ISO/IEC 23001-10
16Derived Visual Tracks in the ISO Base Media File FormatTechnologies under Consideration for Derived visual tracks including further visual derivations
17Carriage of Uncompressed Video in ISOBMFFWD of ISO/IEC 23001-17 Carriage of Uncompressed Video in ISOBMFF

MPEG-A

#PartTitle
19Common Media Application Format (CMAF) for Segmented MediaWD of ISO/IEC23000-19 AMD X Support of LCEVC
19Common Media Application Format (CMAF) for Segmented MediaTechnologies under consideration on CMAF
19Common Media Application Format (CMAF) for Segmented MediaExplorations on storage, archiving and content management on CMAF files
19Common Media Application Format (CMAF) for Segmented MediaExplorations on multi-stream support for CMAF
22Multi-Image Application Format (MIAF)Technology under consideration on MIAF

MPEG-21

#PartTitle
Call for Candidates for Registration Authority for ISO/IEC 21000-3 Digital Item Identification

Administrative

#PartTitle
Request for offers to host a MPEG meeting (MPEG 140 - MPEG 148)

Explorations

#PartTitle
7Immersive VideoCall for test materials for lenslet video coding
32Data CompressionCall for interest of data compression in MPEG
36Neural Network-based Video CompressionExploration experiment on neural network-based video coding (EE1)
39Exploration on Encoder and Packager SynchronizationOn Exploration on Encoder and Packager Synchronization
39Exploration on Encoder and Packager SynchronizationUse cases and requirements for encoder and packager synchronisation
39Exploration on Encoder and Packager SynchronizationDraft Encoder and Packager Synchronisation CfP
41Enhanced compression beyond VVC capabilityExploration experiment on enhanced compression beyond VVC capability (EE2)
41Enhanced compression beyond VVC capabilityAlgorithm description of Enhanced Compression Model 3 (ECM 3)
42Future Capabilities for MPEG-IUpdated MPEG-I Phase 2 Haptics Use Cases
43Dynamic Mesh CodingCfP for Dynamic Mesh Coding
43Dynamic Mesh CodingMetrics for Dynamic Mesh Coding
43Dynamic Mesh CodingAnchors for Mesh Coding evaluation
43Dynamic Mesh CodingCfP for Dynamic Mesh Coding
43Dynamic Mesh Coding3D graphics renderer for the CfP on dynamic mesh compression
44AI-based coding for graphicsPerformance analysis of currently AI-based available solutions for PCC
44AI-based coding for graphicsPreliminary data set collection for AI experiments

Reports

#PartTitle
Summary of Systems standards for video codecs after the 5th WG03 meeting

All

#PartTitle
Assets of Communication
Press Release of MPEG 136th meeting
Guidelines for Verification Testing of Visual Media Specifications
Guidelines for Remote Experts Viewing sessions
Report on MPEG AG 5 Workshop on Quality of Immersive Media: Assessment and Metrics

Other documents published in MPEG 136

TypeTitle
AhGList of SC 29/WG 03 AHGs established at the 5th meeting
AhGList of AHGs established at the 5th WG 5 meeting
AhGWG2 AHGs established at the 5th MPEG WG2 meeting (MPEG 136)
Work planMPEG Roadmap after the MPEG 136 meeting
Work planExtended MPEG Roadmap following MPEG 136 meeting