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SMPTE 2110

January 01, 1970

SMPTE 2110 is a suite of standards from the Society of Motion Picture and Television Engineers (SMPTE) that describes how to send digital media over an IP network.[1]

SMPTE 2110 is intended to be used within broadcast production and distribution facilities where quality and flexibility are more important than bandwidth efficiency.[2]

History edit

SMPTE 2110 was based on the TR-03[3] and TR-04[4] work published by the Video Services Forum on 12 November 2015. The first four parts of SMPTE 2110, -10, -20, -21 and -30, were published by SMPTE on 27 November 2017. Other parts, including recommended practices, were added later, and several parts were updated in 2022.

Standard edit

SMPTE 2110 is specified in several parts:[5]

  • ST 2110-10 - System architecture and synchronization: essences, RTP, SDP and PTP[6]
  • ST 2110-20 - Uncompressed video transport, based on SMPTE 2022-6
  • ST 2110-21 - Traffic shaping and network delivery timing
  • ST 2110-22 - Constant Bit-Rate Compressed Video transport[7]
  • ST 2110-30 - Audio transport, based on AES67[8]
  • ST 2110-31 - Transport of AES3 formatted audio
  • ST 2110-40 - Transport of ancillary data[9]
  • ST 2110-43 - Transport of Timed Text Markup Language for captions and subtitles in systems conforming to SMPTE ST 2110-10.[10]

ST 2110-10: System architecture and synchronization edit

There are several important features of ST 2110-10:[11]

  • Individual audio, video and ancillary data tracks or clips are carried as separate individual streams. These streams are referred to as "essences", e.g., a 5.1 JPEG mp4 clip could have 9 essences: a video essence, 6 separate audio essences, and two closed caption essences, English and Chinese.
  • Real-time Transport Protocol (RTP) is used to transmit streaming essences.
  • Session Initiation Protocol (SIP) is used to manage the connection and distribution of RTP streams including IP multicast one-to-many distribution.
  • Precision Time Protocol (PTP) provides global microsecond accuracy timing of all essences. Synchronization is based on SMPTE 2059.

ST 2110-20: Uncompressed video transport edit

SMPTE 2110-20 defines the key requirements for transporting uncompressed video essence and is built on the IETF RFC 4175, RTP Payload Format for Uncompressed Video. [12]

ST 2110-21: Transmission timing edit

SMPTE 2110-21 defines three classes of devices based on their transmission timing behavior: NL (for Narrow Linear), N (for Narrow), and W (for Wide). NL senders transmit at a constant bit rate. N senders may suspend transmission during the vertical blanking interval. W senders are intended to support software implementations of 2110 and adhere to less rigorous transmission timing requirements. A type W receiver should be able to receive from any type of sender.[13]

ST 2110-22: Constant bit-rate compressed video transport edit

SMPTE 2110-22 defines the key requirements for transporting compressed video essence. The compression standard needs to provide a constant bitrate, a defined RTP payload and low latency to satisfy the needs of Live production. The majority of the SMPTE 2110-22 implementations uses the JPEG XS lightweight low latency compression standard [14] created by the Joint Photographic Experts Group to answer the requirements of the SMPTE 2110 standard. The JPEG XS codec has only a few video lines of latency in software and hardware implementations,[15] which is less than 1 millisecond. SMPTE 2110-22 is used as an alternative to uncompressed video (SMPTE 2110-20) in live production environment. SMPTE 2110-22 is indeed very suitable to use less bandwidth in local live IP production, remote production, contribution or cloud-based production.[16]

Recommended practices edit

The 2110 suite also includes SMPTE Recommeded Practices:

  • RP 2110-23, Single Video Essence Transport over Multiple ST 2110-20 Streams
  • RP 2110-24, Special Considerations for Standard Definition Video Using SMPTE ST 2110-20
  • RP 2110-25, Professional Media over Managed IP Networks: Measurement Practices

References edit

  1. ^ "SMPTE ST 2110: Structuring the Future of Broadcasting". IEEE Spectrum. Retrieved 2019-05-21.
  2. ^ What is SMPTE ST2110?
  3. ^ Transport of Uncompressed Elementary Stream Media over IP (PDF), Video Services Forum, 12 November 2015
  4. ^ Utilization of ST-2022-6 Media Flows within a VSF TR-03 Environment (PDF), Video Services Forum, 12 November 2015
  5. ^ "SMPTE ST 2110 FAQ". Society of Motion Picture and Television Engineers. Retrieved 2019-05-21.
  6. ^ Professional Media over Managed IP Networks: System Timing and Definitions. Society of Motion Picture and Television Engineers. doi:10.5594/SMPTE.ST2110-10.2017. ISBN 978-1-68303-101-7. Retrieved 2021-11-10.
  7. ^ ST 2110-22:2019 - SMPTE Standard - Professional Media Over Managed IP Networks: Constant Bit-Rate Compressed Video, IEEE, 14 August 2019, doi:10.5594/SMPTE.ST2110-22.2019, ISBN 978-1-68303-189-5
  8. ^ Wes Simpson (May 31, 2018). "SMPTE ST 2110-30: A Fair Hearing For Audio". TV Technology. Retrieved 2019-05-21.
  9. ^ Leigh Whitcomb, Deep Dive into SMPTE ST 2110-40 Ancillary Data (PDF), retrieved 2022-03-25
  10. ^ SMPTE. "SMPTE ST 2110 - Society of Motion Picture & Television Engineers". www.smpte.org. Retrieved 2023-07-27.
  11. ^ SMPTE ST 2110-10: A Base to Build On
  12. ^ "SMPTE ST 2110-20 Pass the pixels please". TV Technology.
  13. ^ Wes Simpson (February 9, 2018). "SMPTE ST 2110-21: Taming the Torrents". TV Technology.
  14. ^ JPEG XS and ST 2110 (PDF), AIMS Alliance, 12 April 2019
  15. ^ JPEG XS White Paper
  16. ^ "Understanding JPEG XS for Live IP and Remote Production".

January 01, 1970
smpte, 2110, suite, standards, from, society, motion, picture, television, engineers, smpte, that, describes, send, digital, media, over, network, intended, used, within, broadcast, production, distribution, facilities, where, quality, flexibility, more, impor. SMPTE 2110 is a suite of standards from the Society of Motion Picture and Television Engineers SMPTE that describes how to send digital media over an IP network 1 SMPTE 2110 is intended to be used within broadcast production and distribution facilities where quality and flexibility are more important than bandwidth efficiency 2 Contents 1 History 2 Standard 2 1 ST 2110 10 System architecture and synchronization 2 2 ST 2110 20 Uncompressed video transport 2 3 ST 2110 21 Transmission timing 2 4 ST 2110 22 Constant bit rate compressed video transport 3 Recommended practices 4 ReferencesHistory editSMPTE 2110 was based on the TR 03 3 and TR 04 4 work published by the Video Services Forum on 12 November 2015 The first four parts of SMPTE 2110 10 20 21 and 30 were published by SMPTE on 27 November 2017 Other parts including recommended practices were added later and several parts were updated in 2022 Standard editSMPTE 2110 is specified in several parts 5 ST 2110 10 System architecture and synchronization essences RTP SDP and PTP 6 ST 2110 20 Uncompressed video transport based on SMPTE 2022 6 ST 2110 21 Traffic shaping and network delivery timing ST 2110 22 Constant Bit Rate Compressed Video transport 7 ST 2110 30 Audio transport based on AES67 8 ST 2110 31 Transport of AES3 formatted audio ST 2110 40 Transport of ancillary data 9 ST 2110 43 Transport of Timed Text Markup Language for captions and subtitles in systems conforming to SMPTE ST 2110 10 10 ST 2110 10 System architecture and synchronization edit There are several important features of ST 2110 10 11 Individual audio video and ancillary data tracks or clips are carried as separate individual streams These streams are referred to as essences e g a 5 1 JPEG mp4 clip could have 9 essences a video essence 6 separate audio essences and two closed caption essences English and Chinese Real time Transport Protocol RTP is used to transmit streaming essences Session Initiation Protocol SIP is used to manage the connection and distribution of RTP streams including IP multicast one to many distribution Precision Time Protocol PTP provides global microsecond accuracy timing of all essences Synchronization is based on SMPTE 2059 ST 2110 20 Uncompressed video transport edit SMPTE 2110 20 defines the key requirements for transporting uncompressed video essence and is built on the IETF RFC 4175 RTP Payload Format for Uncompressed Video 12 ST 2110 21 Transmission timing edit SMPTE 2110 21 defines three classes of devices based on their transmission timing behavior NL for Narrow Linear N for Narrow and W for Wide NL senders transmit at a constant bit rate N senders may suspend transmission during the vertical blanking interval W senders are intended to support software implementations of 2110 and adhere to less rigorous transmission timing requirements A type W receiver should be able to receive from any type of sender 13 ST 2110 22 Constant bit rate compressed video transport edit SMPTE 2110 22 defines the key requirements for transporting compressed video essence The compression standard needs to provide a constant bitrate a defined RTP payload and low latency to satisfy the needs of Live production The majority of the SMPTE 2110 22 implementations uses the JPEG XS lightweight low latency compression standard 14 created by the Joint Photographic Experts Group to answer the requirements of the SMPTE 2110 standard The JPEG XS codec has only a few video lines of latency in software and hardware implementations 15 which is less than 1 millisecond SMPTE 2110 22 is used as an alternative to uncompressed video SMPTE 2110 20 in live production environment SMPTE 2110 22 is indeed very suitable to use less bandwidth in local live IP production remote production contribution or cloud based production 16 Recommended practices editThe 2110 suite also includes SMPTE Recommeded Practices RP 2110 23 Single Video Essence Transport over Multiple ST 2110 20 Streams RP 2110 24 Special Considerations for Standard Definition Video Using SMPTE ST 2110 20 RP 2110 25 Professional Media over Managed IP Networks Measurement PracticesReferences edit SMPTE ST 2110 Structuring the Future of Broadcasting IEEE Spectrum Retrieved 2019 05 21 What is SMPTE ST2110 Transport of Uncompressed Elementary Stream Media over IP PDF Video Services Forum 12 November 2015 Utilization of ST 2022 6 Media Flows within a VSF TR 03 Environment PDF Video Services Forum 12 November 2015 SMPTE ST 2110 FAQ Society of Motion Picture and Television Engineers Retrieved 2019 05 21 Professional Media over Managed IP Networks System Timing and Definitions Society of Motion Picture and Television Engineers doi 10 5594 SMPTE ST2110 10 2017 ISBN 978 1 68303 101 7 Retrieved 2021 11 10 ST 2110 22 2019 SMPTE Standard Professional Media Over Managed IP Networks Constant Bit Rate Compressed Video IEEE 14 August 2019 doi 10 5594 SMPTE ST2110 22 2019 ISBN 978 1 68303 189 5 Wes Simpson May 31 2018 SMPTE ST 2110 30 A Fair Hearing For Audio TV Technology Retrieved 2019 05 21 Leigh Whitcomb Deep Dive into SMPTE ST 2110 40 Ancillary Data PDF retrieved 2022 03 25 SMPTE SMPTE ST 2110 Society of Motion Picture amp Television Engineers www smpte org Retrieved 2023 07 27 SMPTE ST 2110 10 A Base to Build On SMPTE ST 2110 20 Pass the pixels please TV Technology Wes Simpson February 9 2018 SMPTE ST 2110 21 Taming the Torrents TV Technology JPEG XS and ST 2110 PDF AIMS Alliance 12 April 2019 JPEG XS White Paper Understanding JPEG XS for Live IP and Remote Production Retrieved from https en wikipedia org w index php title SMPTE 2110 amp oldid 1215438040, wikipedia, wiki, book, books, library,

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