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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, which is less than 1 millisecond. SMPTE 2110-22 is used as an alternative to uncompressed video (SMPTE 2110-20) in live production environment.
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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
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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
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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.
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SMPTE 2110 is intended to be used within broadcast production and distribution facilities where quality and flexibility are more important than bandwidth efficiency.
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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).
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SMPTE 2110-22 is indeed very suitable to use less bandwidth in local live IP production, remote production, contribution or cloud-based production.
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senders are intended to support software implementations of 2110 and adhere to less rigorous transmission timing requirements. A type
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ST 2110-22:2019 - SMPTE Standard - Professional Media Over
Managed IP Networks: Constant Bit-Rate Compressed Video
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SMPTE 2110-20 defines the key requirements for transporting uncompressed video essence and is built on the
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138:(PTP) provides global microsecond accuracy timing of all essences. Synchronization is based on
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RP 2110-24, Special
Considerations for Standard Definition Video Using SMPTE ST 2110-20
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128:(SIP) is used to manage the connection and distribution of RTP streams including
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ST 2110-10 - System architecture and synchronization: essences, RTP, SDP and PTP
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RP 2110-25, Professional Media over
Managed IP Networks: Measurement Practices
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RP 2110-23, Single Video
Essence Transport over Multiple ST 2110-20 Streams
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Professional Media over
Managed IP Networks: System Timing and Definitions
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498:"SMPTE ST 2110 - Society of Motion Picture & Television Engineers"
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for captions and subtitles in systems conforming to SMPTE ST 2110-10.
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Utilization of ST-2022-6 Media Flows within a VSF TR-03 Environment
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SMPTE 2110 was based on the TR-03 and TR-04 work published by the
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lightweight low latency compression standard created by the
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receiver should be able to receive from any type of sender.
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The 2110 suite also includes SMPTE Recommended
Practices:
600:"Understanding JPEG XS for Live IP and Remote Production"
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ST 2110-22 - Constant Bit-Rate
Compressed Video transport
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ST 2110-22: Constant bit-rate compressed video transport
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ST 2110-21 - Traffic shaping and network delivery timing
251:"SMPTE ST 2110: Structuring the Future of Broadcasting"
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There are several important features of ST 2110-10:
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ST 2110-20 - Uncompressed video transport, based on
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ST 2110-10: System architecture and synchronization
362:Society of Motion Picture and Television Engineers
336:Society of Motion Picture and Television Engineers
24:Society of Motion Picture and Television Engineers
474:Deep Dive into SMPTE ST 2110-40 Ancillary Data
162:, RTP Payload Format for Uncompressed Video.
16:Professional digital video networking standard
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122:(RTP) is used to transmit streaming essences.
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448:"SMPTE ST 2110-30: A Fair Hearing For Audio"
178:senders may suspend transmission during the
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58:SMPTE 2110 is specified in several parts:
533:"SMPTE ST 2110-20 Pass the pixels please"
174:senders transmit at a constant bit rate.
147:ST 2110-20: Uncompressed video transport
91:ST 2110-40 - Transport of ancillary data
552:"SMPTE ST 2110-21: Taming the Torrents"
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78:ST 2110-30 - Audio transport, based on
1110:Comparison of audio network protocols
7:
521:SMPTE ST 2110-10: A Base to Build On
26:(SMPTE) that describes how to send
14:
640:Digital audio and video protocols
22:is a suite of standards from the
550:Wes Simpson (February 9, 2018).
205:Joint Photographic Experts Group
166:ST 2110-21: Transmission timing
577:, AIMS Alliance, 12 April 2019
1:
446:Wes Simpson (May 31, 2018).
419:10.5594/SMPTE.ST2110-22.2019
370:10.5594/SMPTE.ST2110-10.2017
120:Real-time Transport Protocol
111:Individual audio, video and
126:Session Initiation Protocol
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180:vertical blanking interval
96:Timed Text Markup Language
94:ST 2110-43 - Transport of
84:ST 2110-31 - Transport of
132:one-to-many distribution.
136:Precision Time Protocol
274:What is SMPTE ST2110?
212:Recommended practices
318:Video Services Forum
295:Video Services Forum
47:Video Services Forum
588:JPEG XS White Paper
571:JPEG XS and ST 2110
435:on October 28, 2020
332:"SMPTE ST 2110 FAQ"
737:Open Sound Control
413:, 14 August 2019,
320:, 12 November 2015
297:, 12 November 2015
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88:formatted audio
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556:TV Technology
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502:www.smpte.org
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28:digital media
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505:. Retrieved
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451:
441:
433:the original
405:
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388:. Retrieved
384:the original
356:
350:
339:. Retrieved
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258:. Retrieved
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187:
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171:
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150:
130:IP multicast
106:
57:
44:
36:
19:
18:
994:DisplayPort
933:WheatNet-IP
1068:SMPTE 2110
1063:SMPTE 2022
876:EtherSound
826:(SuperMAC)
770:Audio only
507:2023-07-27
483:2022-03-25
457:2019-05-21
390:2021-11-10
341:2019-05-21
260:2019-05-21
237:References
140:SMPTE 2059
67:SMPTE 2022
32:IP network
20:SMPTE 2110
884:SoundGrid
829:AudioRail
697:Obsolete:
1145:Category
1119:See also
1003:Ethernet
919:Livewire
868:CobraNet
843:Ethernet
752:RTP-MIDI
116:Chinese.
54:Standard
30:over an
966:HDBaseT
929:Ravenna
914:NetJack
664:HDBaseT
647:Control
496:SMPTE.
201:JPEG XS
41:History
953:Direct
872:dSNAKE
801:S/PDIF
778:Direct
757:DetNet
727:Modbus
692:Modbus
656:Direct
425:
376:
158:
1126:AES47
1096:Other
1058:HBRMT
945:Video
924:Q-LAN
909:Dante
904:AES67
861:Milan
851:AES51
833:MaGIC
824:AES50
819:A-Net
742:AES70
732:ONVIF
575:(PDF)
478:(PDF)
314:(PDF)
291:(PDF)
80:AES67
1078:RTMP
1033:IPTV
971:HDMI
880:REAC
796:MADI
791:AES3
747:RTSP
707:ZIPI
702:mLAN
687:MIDI
423:ISBN
411:IEEE
374:ISBN
160:4175
153:IETF
86:AES3
1083:NDI
1073:SRT
1053:RTP
1048:NDI
1043:MTS
1038:MMT
1015:TSN
1010:AVB
986:Bus
976:SDI
961:DVI
856:AVB
811:Bus
682:CEC
674:Bus
415:doi
366:doi
156:RFC
1147::
1025:IP
895:IP
719:IP
554:.
535:.
500:.
450:.
421:,
409:,
372:.
364:.
360:.
334:.
316:,
293:,
253:.
182:.
172:NL
69:-6
34:.
633:e
626:t
619:v
602:.
558:.
539:.
510:.
460:.
417::
393:.
368::
344:.
263:.
188:W
184:W
176:N
142:.
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.