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Multimedia Broadcast Multicast Service

August 27, 2023

Multimedia Broadcast Multicast Services (MBMS) is a point-to-multipoint interface specification for existing 3GPP cellular networks, which is designed to provide efficient delivery of broadcast and multicast services, both within a cell as well as within the core network. For broadcast transmission across multiple cells, it defines transmission via single-frequency network configurations. The specification is referred to as Evolved Multimedia Broadcast Multicast Services (eMBMS) when transmissions are delivered through an LTE (Long Term Evolution) network. eMBMS is also known as LTE Broadcast.[1]

Target applications include mobile TV and radio broadcasting, live streaming video services, as well as file delivery and emergency alerts.

Questions remain whether the technology is an optimization tool for the operator or if an operator can generate new revenues with it. Several studies have been published on the domain identifying both cost savings and new revenues.[2]

Deployments Edit

In 2013,[3] Verizon announced that it would launch eMBMS services in 2014, over its nationwide (United States) LTE networks. AT&T subsequently announced plans to use the 700 MHz Lower D and E Block licenses it acquired in 2011 from Qualcomm for an LTE Broadcast service.[4]

Several major operators worldwide have been lining-up to deploy and test the technology. The frontrunners being Verizon in the United States,[5] Kt and Reliance[6] in Asia, and recently EE[7] and Vodafone in Europe.[8]

In January 2014, Korea’s Kt launched the first commercial LTE Broadcast service.[9] The solution includes Kt’s internally developed eMBMS Bearer Service, and Samsung mobile devices fitted with the Expway Middleware as the eMBMS User Service.

In February 2014, Verizon demonstrated the potential of LTE Broadcast during Super Bowl XLVIII, using Samsung Galaxy Note 3s, fitted with Expway's eMBMS User Service.[10]

In July 2014, Nokia demonstrated the use of LTE Broadcast to replace Traditional Digital TV.[11] This use case remains controversial as some study are doubting about the capability of LTE Broadcast to address this use case efficiently in its current version.[12]

Also in July 2014, BBC Research & Development and EE demonstrated LTE Broadcast during the XX Commonwealth Games in Glasgow, Scotland using equipment from Huawei and Qualcomm.[13][14]

In August 2014, Ericsson and Polkomtel successfully tested LTE Broadcast technology by streaming the opening game of the 2014 World Volleyball Championship to hundreds of guests at Warsaw’s National Stadium in Poland on August 30.[15]

In June 2015, BBC Research & Development and EE demonstrated LTE Broadcast during the FA Cup final in the U.K. [16][17]

In September 2015, Verizon demonstrated eMBMS by broadcasting INDYCAR races.[18]

In October 2015, Verizon commercially launched their Go90 eMBMS service. Go90 offers both On-Demand and LiveTV, in both Unicast and Broadcast, and supports more than 10 different LTE Broadcast mobile devices. [19][20][21] Verizon ceased operating the go90 service on July 31, 2018.[22]

In February 2016, Akamai demonstrated with Expway, delivery of video streams across LTE networks with live on the fly switching from unicast to broadcast, at Mobile World Congress 2016.[23]

In April 2016, Verizon, Telstra, KT and EE launched the LTE Broadcast Alliance.[24]

As of January 2019, the Global Mobile Suppliers Association had identified 41 operators that have invested in eMBMS (including those considering/testing/trialling, deploying or piloting and those that have deployed or launched eMBMS). Five operators state they have now deployed eMBMS or launched some sort of commercial service using eMBMS.[25]

The range of chipsets available that can support eMBMS has been steadily growing, with three mobile processors/platforms released since March 2018. GSA has identified 69 chipsets supporting eMBMS, and there are at least 59 devices that support eMBMS (in some instances after operator-specific upgrades).[26]

Competing technologies Edit

Main competing technologies of MBMS include DVB-H/DVB-T, DVB-SH, DMB, ESM-DAB, and MediaFLO. However, due to spectrum scarcity and the cost of building new broadcast infrastructure some of these technologies may not be viable. MediaFLO has been deployed commercially in the US by Verizon Wireless through their relationship with MediaFLO USA, Inc. (a subsidiary of Qualcomm) however the service was shut down in early 2011.[27] DMB and DVB-H trials have been ongoing for more than a year now, like those during the football 2006 championships in Germany.

Huawei's proprietary CMB is a precursor to the Multimedia Broadcast Multicast Service. It was specified in 3GPP R6 and is using existing UMTS infrastructure. Huawei says that CMB is based on existing UMTS infrastructure and real time streaming application protocol.

The most significant competition is from services that stream individual video feeds to users over uni-cast data connections. While less efficient in certain situations, particularly the traditional case where everyone watches the same stream simultaneously, the user convenience of individual streaming has taken over the vast majority of the mobile media streaming market.

Technical description Edit

The MBMS feature is split into the MBMS Bearer Service and the MBMS User Service and has been defined to be offered over both UTRAN (i.e. WCDMA, TD-CDMA and TD-SCDMA) and LTE (where it is often referred to as eMBMS). The MBMS Bearer Service includes a Unicast and a Broadcast Mode. MBMS Operation On-Demand (MOOD) allows dynamic switching between Unicast and Broadcast over LTE, based on configured triggers. The MBMS Bearer Service uses IP multicast addresses for the IP flows. The advantage of the MBMS Bearer Service compared to unicast bearer services (interactive, streaming, etc.) is that the transmission resources in the core and radio networks are shared.[28] One MBMS packet flow is replicated by GGSN, SGSN and RNCs. MBMS may use an advanced counting scheme to decide, whether or not zero, one or more dedicated (i.e. unicast) radio channels lead to a more efficient system usage than one common (i.e. broadcast) radio channel.

  • UTRAN MBMS offers up to 256 kbit/s per MBMS Bearer Service and between 800 kbit/s and 1.7 Mbit/s per cell/band. The actual cell capacity depends on the UE capabilities.
  • GERAN MBMS offers between 32 kbit/s and 128 kbit/s. Up to 4 GSM timeslots may be used for one MBMS bearer in the downlink direction. The actual data rate per Traffic Slot depends on network dimensioning.

The MBMS User Service is basically the MBMS Service Layer and offers two different data Delivery Methods:

  • The Streaming Delivery Method can be used for continuous transmissions like mobile television services. An application layer FEC code may be used to increase the transmission reliability.
  • The Download Delivery Method is intended for “download and play” services. A File Repair service may be offered to compensate for unreliable delivery.

MBMS has been standardized in various groups of 3GPP (Third Generation Partnership Project), and the first phase standards are found in UMTS release 6. As Release 6 was functionally frozen by the 3rd quarter of 2004, practical network implementations may be expected by the end of 2007, and the first functional mobile terminals supporting MBMS are estimated to be available by also end of 2007.

eMBMS has been standardized in various groups of 3GPP as part of LTE release 9. The LTE version of MBMS, referred to as Multicast-broadcast single-frequency network (MBSFN), supports broadcast only services and is based on a Single Frequency Network (SFN) based OFDM waveform and so is functional similar to other broadcast solutions such as DVB-H, -SH and -NGH. In Release 14, the 3GPP enhanced the specifications for eMBMS with a view to making the technology more attractive for deployment by operators and broadcasters. The 3GPP’s work on the next generation of technology in Release 16 includes a study on LTE-based broadcast on 5G networks,[29] MBMS APIs for mission-critical services and MBMS user services for IoT.[30]

3GPP technical specifications Edit

MBMS Bearer Service (Distribution Layer):

  • 3GPP TS 22.146 Multimedia Broadcast/Multicast Service (MBMS); Stage 1
  • 3GPP TS 23.246 Multimedia Broadcast/Multicast Service (MBMS); Architecture and functional description
  • 3GPP TS 25.346 Introduction of the Multimedia Broadcast/Multicast Service (MBMS) in the Radio Access Network (RAN); Stage 2
  • 3GPP TS 25.992 Multimedia Broadcast Multicast Service (MBMS); UTRAN/GERAN Requirements
  • 3GPP TS 36.300 Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2 (see chapter 15 for eMBMS)
  • 3GPP TS 36.440 General aspects and principles for interfaces supporting Multimedia Broadcast Multicast Service (MBMS) within E-UTRAN
  • 3GPP TS 43.246 Multimedia Broadcast/Multicast Service (MBMS) in the GERAN; Stage 2
  • 3GPP TR 25.803 S-CCPCH performance for Multimedia Broadcast/Multicast Service (MBMS)

MBMS User Service (Service Layer):

  • 3GPP TS 22.246 Multimedia Broadcast/Multicast Service (MBMS) user services; Stage 1
  • 3GPP TS 26.346 Multimedia Broadcast/Multicast Service (MBMS); Protocols and codecs
  • 3GPP TR 26.946 Multimedia Broadcast/Multicast Service (MBMS) user service guidelines
  • 3GPP TS 33.246 3G Security; Security of Multimedia Broadcast/Multicast Service (MBMS)
  • 3GPP TS 32.273 Telecommunication management; Charging management; Multimedia Broadcast and Multicast Service (MBMS) charging

See also Edit

References Edit

  1. ^ GSA: LTE Broadcast (eMBMS) Market Update – January 2019 (retrieved 7 January 2019)
  2. ^ (PDF). Archived from the original (PDF) on 2016-03-04. Retrieved 2014-09-04.
  3. ^ Verizon Eyes Broadcast Over LTE for Super Bowl 2014 By Chloe Albanesius, PC Magazine, January 8, 2013
  4. ^ AT&T to use Lower 700 MHz D and E Block spectrum for LTE Broadcast By Phil Goldstein, FierceWireless, September 24, 2013
  5. ^ Verizon Delivers LTE Multicast Over Commercial 4G LTE Network in Indy
  6. ^ RJIL to invest in LTE broadcast technology
  7. ^ "EE demos LTE Broadcast but commercial success will depend on partnerships".
  8. ^ "Europe Charges Ahead with LTE Broadcast trials - the Broadcast Bridge - Connecting IT to Broadcast". 3 July 2015.
  9. ^ "Korea's KT launches LTE broadcast service". 27 January 2014.
  10. ^ "Verizon uses Super Bowl to show off LTE broadcast video".
  11. ^ Nokia Networks first to trial LTE for national TV broadcasting
  12. ^ Delivery of Broadcast Content over LTE
  13. ^ BBC Research & Development to Demonstrate 4G Broadcast for Commonwealth Games by Andrew Murphy.
  14. ^ BBC, Huawei and EE unveil 4G broadcasting trial at Commonwealth Games by Antony Savvas.
  15. ^ "Ericsson and Polkomtel test LTE Broadcast in Poland". September 2014.
  16. ^ 4G Broadcast technology trial at Wembley 2015 FA Cup Final by Chris Nokes.
  17. ^ EE and BBC trial 4G broadcast at FA Cup Final.
  18. ^ "LTE Broadcast Launches in the US".
  19. ^ "Verizon launches go90 mobile video service". USA Today.
  20. ^ "Verizon's Mobile Video Service Go90 Launches to Public".
  21. ^ "Verizon's Go90 to deliver free mobile TV service".
  22. ^ "Verizon is Shutting Down Go90, Its Ill-Fated Mobile Video Service". 28 June 2018.
  23. ^ "Akamai Showcases Mobile Innovation at Mobile World Congress 2016 | Akamai".
  24. ^ Alleven, Monica (April 27, 2016). "Verizon, Telstra, kt and EE launch LTE-Broadcast Alliance | FierceWireless". www.fiercewireless.com. from the original on August 28, 2018.
  25. ^ GSA: LTE Broadcast (eMBMS) Market Update – January 2019 (retrieved 7 January 2019)
  26. ^ GSA: LTE Broadcast – eMBMS – Snapshot July 2019
  27. ^ MediaFLO
  28. ^ Delivering content with LTE broadcast By Thorsten Lohmar, Michael Slssingar, Vera Kenehan and Stif Puustinen, Ericsson Review, February 11, 2013
  29. ^ Technical explanation about LTE-based 5G Terrestrial Broadcast
  30. ^ GSA: LTE Broadcast (eMBMS) Market Update – January 2019 (retrieved 7 January 2019)

August 27, 2023
multimedia, broadcast, multicast, service, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, . This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Multimedia Broadcast Multicast Service news newspapers books scholar JSTOR October 2009 Learn how and when to remove this template message Multimedia Broadcast Multicast Services MBMS is a point to multipoint interface specification for existing 3GPP cellular networks which is designed to provide efficient delivery of broadcast and multicast services both within a cell as well as within the core network For broadcast transmission across multiple cells it defines transmission via single frequency network configurations The specification is referred to as Evolved Multimedia Broadcast Multicast Services eMBMS when transmissions are delivered through an LTE Long Term Evolution network eMBMS is also known as LTE Broadcast 1 Target applications include mobile TV and radio broadcasting live streaming video services as well as file delivery and emergency alerts Questions remain whether the technology is an optimization tool for the operator or if an operator can generate new revenues with it Several studies have been published on the domain identifying both cost savings and new revenues 2 Contents 1 Deployments 2 Competing technologies 3 Technical description 4 3GPP technical specifications 5 See also 6 ReferencesDeployments EditIn 2013 3 Verizon announced that it would launch eMBMS services in 2014 over its nationwide United States LTE networks AT amp T subsequently announced plans to use the 700 MHz Lower D and E Block licenses it acquired in 2011 from Qualcomm for an LTE Broadcast service 4 Several major operators worldwide have been lining up to deploy and test the technology The frontrunners being Verizon in the United States 5 Kt and Reliance 6 in Asia and recently EE 7 and Vodafone in Europe 8 In January 2014 Korea s Kt launched the first commercial LTE Broadcast service 9 The solution includes Kt s internally developed eMBMS Bearer Service and Samsung mobile devices fitted with the Expway Middleware as the eMBMS User Service In February 2014 Verizon demonstrated the potential of LTE Broadcast during Super Bowl XLVIII using Samsung Galaxy Note 3s fitted with Expway s eMBMS User Service 10 In July 2014 Nokia demonstrated the use of LTE Broadcast to replace Traditional Digital TV 11 This use case remains controversial as some study are doubting about the capability of LTE Broadcast to address this use case efficiently in its current version 12 Also in July 2014 BBC Research amp Development and EE demonstrated LTE Broadcast during the XX Commonwealth Games in Glasgow Scotland using equipment from Huawei and Qualcomm 13 14 In August 2014 Ericsson and Polkomtel successfully tested LTE Broadcast technology by streaming the opening game of the 2014 World Volleyball Championship to hundreds of guests at Warsaw s National Stadium in Poland on August 30 15 In June 2015 BBC Research amp Development and EE demonstrated LTE Broadcast during the FA Cup final in the U K 16 17 In September 2015 Verizon demonstrated eMBMS by broadcasting INDYCAR races 18 In October 2015 Verizon commercially launched their Go90 eMBMS service Go90 offers both On Demand and LiveTV in both Unicast and Broadcast and supports more than 10 different LTE Broadcast mobile devices 19 20 21 Verizon ceased operating the go90 service on July 31 2018 22 In February 2016 Akamai demonstrated with Expway delivery of video streams across LTE networks with live on the fly switching from unicast to broadcast at Mobile World Congress 2016 23 In April 2016 Verizon Telstra KT and EE launched the LTE Broadcast Alliance 24 As of January 2019 the Global Mobile Suppliers Association had identified 41 operators that have invested in eMBMS including those considering testing trialling deploying or piloting and those that have deployed or launched eMBMS Five operators state they have now deployed eMBMS or launched some sort of commercial service using eMBMS 25 The range of chipsets available that can support eMBMS has been steadily growing with three mobile processors platforms released since March 2018 GSA has identified 69 chipsets supporting eMBMS and there are at least 59 devices that support eMBMS in some instances after operator specific upgrades 26 Competing technologies EditMain competing technologies of MBMS include DVB H DVB T DVB SH DMB ESM DAB and MediaFLO However due to spectrum scarcity and the cost of building new broadcast infrastructure some of these technologies may not be viable MediaFLO has been deployed commercially in the US by Verizon Wireless through their relationship with MediaFLO USA Inc a subsidiary of Qualcomm however the service was shut down in early 2011 27 DMB and DVB H trials have been ongoing for more than a year now like those during the football 2006 championships in Germany Huawei s proprietary CMB is a precursor to the Multimedia Broadcast Multicast Service It was specified in 3GPP R6 and is using existing UMTS infrastructure Huawei says that CMB is based on existing UMTS infrastructure and real time streaming application protocol The most significant competition is from services that stream individual video feeds to users over uni cast data connections While less efficient in certain situations particularly the traditional case where everyone watches the same stream simultaneously the user convenience of individual streaming has taken over the vast majority of the mobile media streaming market Technical description EditThe MBMS feature is split into the MBMS Bearer Service and the MBMS User Service and has been defined to be offered over both UTRAN i e WCDMA TD CDMA and TD SCDMA and LTE where it is often referred to as eMBMS The MBMS Bearer Service includes a Unicast and a Broadcast Mode MBMS Operation On Demand MOOD allows dynamic switching between Unicast and Broadcast over LTE based on configured triggers The MBMS Bearer Service uses IP multicast addresses for the IP flows The advantage of the MBMS Bearer Service compared to unicast bearer services interactive streaming etc is that the transmission resources in the core and radio networks are shared 28 One MBMS packet flow is replicated by GGSN SGSN and RNCs MBMS may use an advanced counting scheme to decide whether or not zero one or more dedicated i e unicast radio channels lead to a more efficient system usage than one common i e broadcast radio channel UTRAN MBMS offers up to 256 kbit s per MBMS Bearer Service and between 800 kbit s and 1 7 Mbit s per cell band The actual cell capacity depends on the UE capabilities GERAN MBMS offers between 32 kbit s and 128 kbit s Up to 4 GSM timeslots may be used for one MBMS bearer in the downlink direction The actual data rate per Traffic Slot depends on network dimensioning The MBMS User Service is basically the MBMS Service Layer and offers two different data Delivery Methods The Streaming Delivery Method can be used for continuous transmissions like mobile television services An application layer FEC code may be used to increase the transmission reliability The Download Delivery Method is intended for download and play services A File Repair service may be offered to compensate for unreliable delivery MBMS has been standardized in various groups of 3GPP Third Generation Partnership Project and the first phase standards are found in UMTS release 6 As Release 6 was functionally frozen by the 3rd quarter of 2004 practical network implementations may be expected by the end of 2007 and the first functional mobile terminals supporting MBMS are estimated to be available by also end of 2007 eMBMS has been standardized in various groups of 3GPP as part of LTE release 9 The LTE version of MBMS referred to as Multicast broadcast single frequency network MBSFN supports broadcast only services and is based on a Single Frequency Network SFN based OFDM waveform and so is functional similar to other broadcast solutions such as DVB H SH and NGH In Release 14 the 3GPP enhanced the specifications for eMBMS with a view to making the technology more attractive for deployment by operators and broadcasters The 3GPP s work on the next generation of technology in Release 16 includes a study on LTE based broadcast on 5G networks 29 MBMS APIs for mission critical services and MBMS user services for IoT 30 3GPP technical specifications EditMBMS Bearer Service Distribution Layer 3GPP TS 22 146 Multimedia Broadcast Multicast Service MBMS Stage 1 3GPP TS 23 246 Multimedia Broadcast Multicast Service MBMS Architecture and functional description 3GPP TS 25 346 Introduction of the Multimedia Broadcast Multicast Service MBMS in the Radio Access Network RAN Stage 2 3GPP TS 25 992 Multimedia Broadcast Multicast Service MBMS UTRAN GERAN Requirements 3GPP TS 36 300 Evolved Universal Terrestrial Radio Access E UTRA and Evolved Universal Terrestrial Radio Access Network E UTRAN Overall description Stage 2 see chapter 15 for eMBMS 3GPP TS 36 440 General aspects and principles for interfaces supporting Multimedia Broadcast Multicast Service MBMS within E UTRAN 3GPP TS 43 246 Multimedia Broadcast Multicast Service MBMS in the GERAN Stage 2 3GPP TR 25 803 S CCPCH performance for Multimedia Broadcast Multicast Service MBMS MBMS User Service Service Layer 3GPP TS 22 246 Multimedia Broadcast Multicast Service MBMS user services Stage 1 3GPP TS 26 346 Multimedia Broadcast Multicast Service MBMS Protocols and codecs 3GPP TR 26 946 Multimedia Broadcast Multicast Service MBMS user service guidelines 3GPP TS 33 246 3G Security Security of Multimedia Broadcast Multicast Service MBMS 3GPP TS 32 273 Telecommunication management Charging management Multimedia Broadcast and Multicast Service MBMS chargingSee also EditLTE Mobile television TDtv Broadcast and Multicast Service BCMCS a point to multipoint service defined for 3GPP2 systemsReferences Edit GSA LTE Broadcast eMBMS Market Update January 2019 retrieved 7 January 2019 An Analysis of 14 Different LTE Broadcast Business Cases PDF Archived from the original PDF on 2016 03 04 Retrieved 2014 09 04 Verizon Eyes Broadcast Over LTE for Super Bowl 2014 By Chloe Albanesius PC Magazine January 8 2013 AT amp T to use Lower 700 MHz D and E Block spectrum for LTE Broadcast By Phil Goldstein FierceWireless September 24 2013 Verizon Delivers LTE Multicast Over Commercial 4G LTE Network in Indy RJIL to invest in LTE broadcast technology EE demos LTE Broadcast but commercial success will depend on partnerships Europe Charges Ahead with LTE Broadcast trials the Broadcast Bridge Connecting IT to Broadcast 3 July 2015 Korea s KT launches LTE broadcast service 27 January 2014 Verizon uses Super Bowl to show off LTE broadcast video Nokia Networks first to trial LTE for national TV broadcasting Delivery of Broadcast Content over LTE BBC Research amp Development to Demonstrate 4G Broadcast for Commonwealth Games by Andrew Murphy BBC Huawei and EE unveil 4G broadcasting trial at Commonwealth Games by Antony Savvas Ericsson and Polkomtel test LTE Broadcast in Poland September 2014 4G Broadcast technology trial at Wembley 2015 FA Cup Final by Chris Nokes EE and BBC trial 4G broadcast at FA Cup Final LTE Broadcast Launches in the US Verizon launches go90 mobile video service USA Today Verizon s Mobile Video Service Go90 Launches to Public Verizon s Go90 to deliver free mobile TV service Verizon is Shutting Down Go90 Its Ill Fated Mobile Video Service 28 June 2018 Akamai Showcases Mobile Innovation at Mobile World Congress 2016 Akamai Alleven Monica April 27 2016 Verizon Telstra kt and EE launch LTE Broadcast Alliance FierceWireless www fiercewireless com Archived from the original on August 28 2018 GSA LTE Broadcast eMBMS Market Update January 2019 retrieved 7 January 2019 GSA LTE Broadcast eMBMS Snapshot July 2019 MediaFLO Delivering content with LTE broadcast By Thorsten Lohmar Michael Slssingar Vera Kenehan and Stif Puustinen Ericsson Review February 11 2013 Technical explanation about LTE based 5G Terrestrial Broadcast GSA LTE Broadcast eMBMS Market Update January 2019 retrieved 7 January 2019 Retrieved from https en wikipedia org w index php title Multimedia Broadcast Multicast Service amp oldid 1082184622, wikipedia, wiki, book, books, library,

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