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May 2021 @QCOMReseach
Pioneering
5G Broadcast
Building on multiple generations of
cellular broadcast technology leadership
2
2
Source: Ericsson Mobility Report November 2020, Facebook from 5G Broadcast World 2021,
Andreessen Horowitz 2019 (https://a16z.com/2019/12/05/video-first-ecommerce/)
~226B Gigabytes monthly global mobile data
in 2026 — 665% growth expected since 2019
Video traffic will account for ~80% of overall
mobile data traffic by 2022
~800 million users engaged with live streams
on Facebook and Instagram Daily
Growing consumption of live sports broadcast,
e.g., 7.2M people watched the 2020 UEFA
Champions League final on Facebook Live
Effective video livestream commerce, e.g.,
Taobao generated $15B in sales through
livestream in 2018)
Video continues to be
the major traffic driver
of our networks
3
Press “enter” to learn more…
Video streaming for live events
e.g., concerts, sports
Livestream commerce e.g.,
broadcast phone shopping
Digital TV broadcast
e.g., linear TV delivery
Automotive safety
e.g., cellular V2X
Interactive content e.g., linking
to related channels / videos
Public safety
communication
More efficient delivery
of mass data and live
media content
Richer, more immersive
and personalized
viewer experience
Expanded use cases
beyond mobile such
as automotive
Cellular
broadcast
brings benefits
to a wide
range of
deployments
Group firmware update
for IoT devices
Virtually seamless mobile
and fixed access
New media formats, e.g.,
extended Reality (XR) 3
4
4
1 Single-cell point-to-multipoint
5G defines two modes of broadcast communication
Addressing diverse ecosystem, deployment, and use case requirements
Standalone broadcast Mixed-mode multicast
Dedicated broadcasting network to provide a common delivery
platform for richer contents and services
Addressing broadcaster requirements for content delivery
Low-power network supporting dynamic mode switching between
unicast and broadcast to more efficiently deliver identical content
Addressing mobile operator requirements for improved capacity
Single Frequency Network (SFN)
for downlink broadcast only
Live distribution of mass media content
e.g., digital TV, live sports, and digital signage
Dynamic switching between broadcast
and unicast, e.g., SC-PTM1
Broader 5G use cases
e.g., efficient eMBB delivery, SW/FW update,
IoT, V2X, and public safety
5
1 High-power, high-tower; 2 Digital Video Broadcasting; 3 Dynamic Adaptive Streaming over HTTP and HTTP Live Streaming; 4 Common Media Application Format
Digital TV delivery with
5G broadcast is ready
for prime time
5G Standalone Broadcast
3GPP Release 16
Standardization completed
Release 16 specifications of 5G broadcast can meet
all key requirements for digital TV delivery
Spectrum available
UHF band (i.e., 470 to 698 MHz) can be used for digital TV broadcast
in Europe, China, and other regions
Low deployment cost
System is designed for high efficiency, quick time-to-market,
and reuse of broadcasting HPHT1 infrastructure
Tailored for broadcasters
Support for receive-only mode, downlink-only,
dedicated broadcast spectrum, and more
Service layer integration
Broadcaster apps, DVB-I2, DASH/HLS3, CMAF4, as well as unicast
can be deployed with/on top of 5G broadcast
Continued enhancements
5G broadcast technology continues to evolve in future releases,
bringing better performance and efficiency
6
5G unlocks new
opportunities
and efficiencies
for the TV
broadcasting
ecosystem
7
Richer content,
new devices,
and broader
audience reach
A new 5G system design can transform
digital TV broadcasting
8
Generating new values for the mobile,
broadcasting, and broader media ecosystem
Provide broader
access to the
large, existing
smartphone
user base and
new devices
(e.g., cars, XR)
Allow
broadcasters
to reach broader
audiences and
provide higher
quality, new
experiences
Create new
partnership
opportunities for
mobile operators,
broadcasters and
content creators to
drive innovations
Enable mobile
operators to deliver
value-added
services using a
flexible 5G network
that can adapt to
future needs
9
9
5G brings innovation opportunities across
the TV broadcasting value chain
Wirelessly connected studio
Field video production
Cellular network
TV broadcast network
New services
(e.g., livestream
commerce)
New experiences
and devices (e.g.,
live sports on XR)
Content Production Content Delivery Media Consumption
Buy Now
10
10
1 Over-the-top; 2 High-power, high-tower
Designing a scalable 5G system for high-quality content delivery
5G standalone broadcast ─ a unified and standardized media delivery framework
For broadcasters, content providers, mobile operators, service providers, device manufacturers
OTT1 content providers
(e.g., streaming media, etc.)
Digital TV broadcasters
(e.g., TV, paid TV, etc.)
Cloud/5G core network
Media
gateway
• Standardized interface
for content injection
• Unified protocol stack for
broadcast and unicast
• Reuse building blocks of existing
cellular modem functionalities
• New and existing devices (e.g.,
smartphones and receive-only TV)
• Wide coverage, higher
efficiency, capacity, mobility, …
• Shared broadcast for
multiple operators
• Deployment flexibility (e.g.,
HPHT2 vs. cellular, fixed vs.
mobile, broadcast only vs.
dynamic mode switching)
Broadcast
Addressing
unmet needs
(Examples)
• Efficient support for new
and high-quality media
formats such as 360o
video and virtual reality
Combined with unicast service (e.g., eMBB) provided by 5G mobile operators
11
5G has a rich
evolution
roadmap for
broadcast
technologies
New services, devices, deployments
12
5G Broadcast must
support…
3GPP defined 5G
broadcast requirements
Part of 5G NR Rel-14 Study Item — TR 38.913
1.
Existing broadcast services
(e.g., download, streaming,
group comm., TV) and
new services (e.g., V2X)
2.
Dynamic adjustments of
broadcast area based on
e.g., the user distribution
or service requirements
3.
Concurrent delivery of
both unicast and broadcast
services to users
4.
Efficient multiplexing with
unicast transmissions
in at least frequency
and time domain
5.
Static and dynamic resource
allocation between broadcast
(up to 100%) and unicast
6.
Broadcast network sharing
between multiple participating
operators, including dedicated
broadcast network
7.
Cover large local, regional,
national broadcast areas
(e.g., entire country) of up to
100 km cell radius in SFN mode
with network synchronization
8.
Broadcast for fixed,
portable and mobile devices,
with speeds up to 250 km/h
9.
Leverage usage of access
network equipment including
e.g., MIMO to improve broadcast
capacity and reliability
10.
Broadcast services for massive IoT
devices (e.g., for OTA firmware update)
13
13
1 Multimedia Broadcast Multicast Service; 2 Enhanced MBMS; 3 MBMS operation on demand; 4 Mission-critical push to talk
Building on the learnings from multiple generations
of cellular broadcast
5G
Broadcast
(Rel-16+)
Meets all 5G Broadcast requirements,
enabling standalone broadcast and
expanding to new services
Cellular broadcast (MBMS1) first
supported in EDGE, CDMA2000
1xEV-DO and WCDMA
eMBMS2 defined for LTE,
improving coverage and
system efficiency
eMBMS supports mode
switching (MooD3) and
expands to MCPTT4
New enhanced TV (enTV) system
designed to efficiently support
terrestrial digital TV broadcast,
(Rel-8/9) (Rel-12/13)
(Rel-14)
Cellular Broadcast Evolution
Focused on the needs of mobile operators Expansion addressing the needs of broadcasters,
content providers, and more…
The foundation for 5G broadcast spans across generations
14
14
LTE Broadcast was defined to meet the needs of mobile operators
Evolving LTE broadcast — the early 3GPP releases
Rel-14
Enhanced TV
(enTV)
System layer
features
Radio access
features
Broadcast
Rel-8/91
Mixed unicast / MBMS2 carrier
15 kHz numerology
Extended CP3 of 16.7µs
Multi-cell transmission only in MBSFN4
Up to 60% of subframes
for MBSFN transmission
Video streaming
Integrated transport and service
BM-SC5 for MBMS bearer
establishment, media formatting,
and service announcements
Static MBSFN areas
Rel-12
Interface to non-3GPP
group communication
application server
(i.e., MCPTT6)
Single-cell
transmission
Transmission on downlink
data channel7 with new
group identities
Non-synchronized
transmitters
Extending Rel-12 model
to other new services
such as LTE IoT and
C-V2X8
SC-PTM 9 is transparent
to the enhanced packet
core network
A new broadcast
system design for
digital TV delivery
Rel-13
1 3GPP Rel-8 defined physical layer aspects, Rel-9 defined higher layer and network related aspects; 2 Multimedia Broadcast Multicast Service; 3 Cyclic prefix; 4 Multicast broadcast single-frequency network; 5 Broadcast multicast
service center, part of EPC — enhanced packet core; 6 Mission-critical push to talk; 7 PDSCH — Physical Downlink Shared Channel; 8 Cellular Vehicle to Everything; 9 Single cell point to multipoint
15
1 Cyclic Prefix; 2 Inter-site distance; 3 Such as CMAF: Common Media Application Format that is compatible with unicast and broadcast stacks; 4 Defined a set of standardized APIs
Redefining cellular broadcast for digital TV delivery
A new system design addressing the needs of broadcasters, content providers, …
System layer enhancements
Radio access enhancements
Broadcast
Broadcast
Unicast control
xMB
Content provider
Receive only mode
Delivery of free-to-air content to devices
without SIM/service subscription
Unified protocol stack
TV broadcasters can deliver content
in native format3 without transcoding
Standardized interface4
Content providers can deliver media
over 5G Broadcast with a unified framework
Shared broadcast
Multiple operators can serve users
on a common broadcast carrier
Longer range
1-symbol numerology with longer
200 µs CP1 to support 15 km ISD2
More broadcast capacity
Supports dedicated broadcast network
with 100% eMBMS carrier allocation
More deployment flexibility
Single network for mobile and fixed devices
with enhanced support for rooftop reception
Better efficiency
New subframe design reduces overhead
in dedicated broadcast transmissions
Rel-14
Enhanced TV
(enTV)
16
1 Defined in TR 36.976; 2 Medium-power, medium-tower; 3 High-power, high-tower; 4 Low-power, low-tower
Wide ecosystem
support in 3GPP
List of supporting individual
members in RP-193050 (Rel-16)
Academy of Broadcasting Science BBC
Bittium Wireless BMWi British Telecom
Cellnex Telecom CHTTL Dish
European Broadcast Union
European Space Agency
ENENSYS Technologies Expway
Fraunhofer IIS Fraunhofer HHI IRT
Nomor Nokia Nokia Shanghai Bell
One2many Qualcomm Rohde & Schwarz
Samsung Shanghai Jiao Tung University
Telstra
University of the Basque Country
Industry/ecosystem
activities & minor
enhancements in
Rel-17 and beyond
Rel-14 completed new
broadcast design that
met many 5G
requirements
5G broadcast included as
part of the Rel-16 project
package in RAN#78
Rel-16 Study Item —
a gap analysis —
was completed in
March 2019
Rel-16 Work
Items completed
in June 2020
enTV
evolution
timeline
Rel-16 enTV supports more diverse
standalone broadcast deployments
2017 2018 2019 2020 2021+
TV broadcast infrastructure:
MPMT2 & HPHT3 deployments
with rooftop reception
Higher mobility:
~250km/h with car-mounted
LPLT4 deployment
enTV has evolved in Rel-16
to become 5G broadcast1
Fulfilling all 5G requirements defined for broadcast
17
17
Release 16 5G standalone broadcast is designed
to improve coverage in various reception scenarios
0.37 kHz subcarrier spacing,
CP duration ~300 µs
Support for conventional
broadcasting, MPMT & HPHT
Introduced new
numerologies
Enhanced coverage
and spectral efficiency
2.5 kHz wider subcarrier spacing,
CP duration ~100 µs
Support high-speed, mobile reception
• Dedicated reference signals (RS)
accompany each numerology
• For HPHT fixed reception,
RS pattern is less dense in time
domain, reducing overheads
• Wider subcarrier spacing
improves Doppler resiliency,
enhancing mobile reception
Rel-16
enTV
18
18
1 Ultra high frequency, i.e., 470 to 698 MHz; 2 In additions to currently support carrier bandwidths of 1.4MHz, 3MHz, 5MHz, 10MHz, 15MHz, 20MHz; 3 Common media application format
Adding support
for 6/7/8 MHz
carrier bandwidths2
to support
UHF bands
Supporting
the new 5G
core network
in standalone
deployment
Optimizing modem
resource usage
and enabling
fast broadcast
service discovery
Targeting low-latency
broadcast distribution
and 5G media
streaming
Enhancing reliability/
efficiency with e.g.,
time-interleaving
and better reference
signal design
Adapt
to UHF1
broadcast
frequencies
Utilize
5G core
network
for enTV
Enhance
simultaneous
broadcast +
unicast
Support
CMAF3-based
streaming
ecosystem
Further
improve
system
performance
Continue to evolve the end-to-end design for
5G standalone broadcast
Approved as part of
Rel-17
Targeting Rel-18 and beyond
19
19
1 Hybrid automatic repeat request; 2 Modulation and coding scheme
5G NR Rel-17 is adding broader support
for mixed-mode multicast
Release 16
Multicast is part of 5G
V2X communication
Release 17
Mixed-mode multicast extends benefits to
a wider range of new vertical use cases
Enabling dynamic switching
between unicast and broadcast
(e.g., for public safety use cases)
Minimizing impact to device
hardware design
(e.g., no additional silicon)
Supporting improved reliability
and system efficiency with HARQ1
feedback and retransmissions
Unicast
Re Tx
NACK
ACK
ACK
20
20
1 Channel state information 2 Radio access technology
Driving new 5G mixed-mode multicast capabilities
into Rel-18 and beyond
Roaming with carrier
aggregation, dual
connectivity, and
larger SFN area
Support
enhanced and
new deployment
Enhance
mobility
support
Enhanced inter- and
intra-RAT2 handover
supporting LTE and
5G NR core
Time interleaving,
NACK only, HARQ
enhancements,
CSI1 feedback, etc.
Increase
capacity
Improve
multicast
reliability
Improve
power-
savings
Improved control
channel monitoring
and search space
switching
L2 retransmissions
based on feedback
from device and
support for outer
codes
Re Tx
NACK
21
For more
information
on 5G
broadcast
standards…
ETSI TS 103 720: Profile of 3GPP
specification containing the necessary
parts to deploy 5G broadcast
TR 36.976: Overall description
of enhanced TV (enTV) for
5G broadcast
Various specifications
of 5G PHY supporting
broadcast together
with unicast in TS
36.211, 36.212,
36.213
22
We are driving
5G broadcast
adoption for
digital media
delivery
and more…
23
23
Qualcomm Snapdragon is a product of Qualcomm Technologies, Inc. and/or its subsidiaries.
Taking a system approach to technology innovations
Making cellular broadcast a reality
Vision
Identifying a problem or need, and
establishing system requirements
We envisioned a more efficient
way to deliver mass media over
cellular networks
Invention
Inventing new technologies and
end-to-end system architecture
We pioneered key cellular broadcast
technologies for 3G, 4G, and 5G
Proof-of-concept
Delivering end-to-end prototypes
and impactful demonstrations
We showcased cellular broadcast
technologies at various industry events
Standardization
Leading ecosystem towards new projects
and driving new system designs
We led the mobile and broader industries to
standardize cellular broadcast
System Trials
Collaborating on field trials that track standards
development, preparing for commercialization
We worked with mobile operators, device
manufacturer and content providers on trials
Commercialization
Engaging with global ecosystems to
deploy new products and services
We successfully productized cellular
broadcast in our products
1 3
2 4 5 6
24
E2E platform for horizontal services
Common access technologies
Interoperable media formats
Standardized APIs
Essential for commercializing of our
system technology innovations
We are actively driving
TV broadcasting
technology standards
Access
technologies
Network
protocols
Media
formats
Services
(e.g., digital TV)
Technology
standards
25
1 3GPP Rel-8 defined physical layer aspects, Rel-9 defined higher layer and network related aspects; 2 For example, RP-121452 eMBMS Radio Enhancements;
3 Multicast operation on Demand in Rel-12, evolving for per cell basis in Rel-13; 4 Mission-critical Push to Talk is part of Rel-12; 5 enTV as an approved new Rel-14 project
in RP-160675; 6 5G broadcast requirements defined in 3GPP TS 38.913; 7 Way forward on multicast/broadcast specifications in RP-170774
A long heritage of driving cellular broadcast technologies
Over 2 decades of mobile ecosystem and technology R&D leadership for broadcast in 3G, 4G, and 5G
2001
2002
2015 — 2016 2019 — 2020
2012 — 2013
Submitted concept of broadcast
design to 3GPP2 TSG-C for
CDMA2000 1X EV-DO along
with SKT and Samsung
3GPP also started to look at the concept
of MBMS for GSM, EDGE, WCDMA;
contributed key design MBMS elements
and eventually adopted in 3GPP/3GPP2
Led the development, consensus,
standardization of enTV in Rel-145
— a new broadcast system design
meeting many 5G requirements6
Contributed major sets of
eMBMS enhancements2 for
Rel-12 including MOOD3 and
expansion to MCPTT4
Drove further broadcast
enhancements into Rel-16
such as longer inter-site
distance and higher speed
2017
2008 — 2010
Drove MBMS into LTE
specifications starting in
Rel-81 with coverage and
efficiency enhancements
Led the mobile and broadcast
ecosystem leaders to endorse7
our vision of evolving enTV
digital broadcast into 5G
Continued 5G broadcast
technology evolution
3G 4G 5G
2021+
Continue to drive standalone
and mixed-mod broadcast into
future 5G releases, e.g., Rel-17,
18, and beyond
26
26
We are the rapporteur of Rel-14 SA2 Study and Work Items,
Rel-16 RAN Study and Work Items, and more
Revised Work Item for enTV-based 5G broadcast
in Rel-16 (RP-193050)
Approved Work Item for new bands & bandwidth allocation
for enTV-based 5G broadcast in Rel-17 (RP-210907)
Broad ecosystem support for 5G broadcast based TV delivery
Continued support and enhancements of 5G broadcast system design
Academy of Broadcasting Science BBC Bittium Wireless BMWi
British Telecom Cellnex Telecom CHTTL Dish European Broadcast Union
European Space Agency ENENSYS Technologies Expway Fraunhofer IIS
Fraunhofer HHI IRT Nomor Nokia Nokia Shanghai Bell
One2many Qualcomm Rohde & Schwarz Samsung
Shanghai Jiao Tung University Telstra University of the Basque Country
Broadcast Network Europe Cellnex
Dolby ENENSYS European Broadcasting Union
European Space Agency Facebook
IIT Bombay
FAU
OneMedia 3.0 Panasonic
Rohde & Schwarz
University of the Basque Country
ATEME Digital Catapult
DTS/Xperi
LGE
Reliance Jio
Saankhya Labs Shanghai Jiao Tung University
Qualcomm
SyncTechno Inc. TCL Communication TDF
Vivo
NTT DoCoMo
Fraunhofer IIS
Fraunhofer HHI
27
Deploying DVB-I as the service layer for 5G broadcast
Allowing broadcasters to continue supporting existing service layer and applications
Key focus is to create interfaces and APIs to
distribute DVB-I services over 5G
DVB-I service layer supports low-latency DASH,
CMAF and adaptive bit rate multicast
DVB Forum has completed the 5G Study Mission,
and it is currently working on commercial
requirements
Effort is supported by a wide range of
broadcasters, mobile operators, device OEMs,
and technology providers
Non-5G
IP/HTTP
Network
DVB-I Headend
DVB-I Client
API M1d/M2d xMB
API M6d/M7d MBMS-API
5G System
Operator
5G Broadcast
System
Broadcast
(enTV)
Unicast
(5G NR)
28
28
Source: https://www.5g-mag.com/
Key members from the
5G and broadcasting
ecosystems
ABP ATEME BBC B<>com Technology
Research Institute
Broadcast
Networks Europe
Cellnex Digital 3 & 4
Dime
Comunicaciones
Digital TV
Group
European
Broadcasting Union
EI Towers European Space Agency France TV EPT
Huawei IEEE BTS LG MBI Group
Media Broadcast Mediengruppe RTL Nitel
NMHH
NovelSat NPO ONEMedia
ORS Group
Polkomtel PROGIRA Rai
Mediaset Group
RTÉ RTRN RTVE
Saankhya Labs
Sennheiser Swisscom
SWR Qualcomm
New 5G Multimedia Action Group
to drive 5G broadcast adoption
Cross-industry organization comprised of content and service providers,
network operators, technology solution suppliers, equipment
manufacturers, R&D organizations, regulators and policy makers
Main Working Groups (WGs)
Content distribution
Assesses business and operational
models for deployment of 5G system
for content delivery
Content production and contribution
Drives adoption of 5G technologies
for professional media production
Regulation, policy and spectrum
Identifies regulation, policy and spectrum
needs related to the activities for content
distribution and production
Promotion and communication
Markets 5G MAG activities, driving
interaction with other initiatives,
organizations and relevant stakeholders
Multiple 5G broadcast trials have been conducted across Europe,
visit this page for more information
Verizon And growing…
BT
BAI
Communications
NABA
29
Source: 5G-MAG and Qualcomm Technologies, Inc.
1 National Radio and Television Administration; 2 Academy of Broadcasting Science; 3 China Broadcasting Network; 4 As of at Indian Mobile Congress 2020
2019-20: NRTA1 is cooperating with
ABS2 and CBN3 to setup 5G Broadcast
field trials in Beijing
2022: Targeting to commercially deploy
5G broadcast by Winter Olympics in
Beijing, and broader national expansion
planned afterwards
2020+: TV 3.0 project calling
for proposals
2020+: Growing interest
in latest broadcast4 technologies
2020-21: Delivery of TV and radio with Rel-14
broadcast trial deployment in Santiago de Tolú
2018-19: Distribution of linear and nonlinear BBC radio
using Rel-12/14 broadcast in rural Orkney Islands
Late 2021: Distribution of live TV
using Rel-16 enTV near Seoul
2020: Distribution of free-to-air linear radio and TV
using Rel-14 enTV with HPHT in Barcelona
2020-23: Distribution of TV and radio
with Rel-14/16 enTV, also interplaying
with eMBB in Vienna
2018: TV delivery with Rel-14 enTV
using HPHT in Aosta during
European Championship
2020: TV delivery to mobile devices
with Rel-14/16 enTV using HPHT
in Turin
2020-22: 5G Media2Go audiovisual service for autonomous
vehicles with Rel-14/16 enTV in Stuttgart/Heilbronn
2017-20: Distribution of TV with Rel-14 enTV in Munich
and Bavarian alpine region
Germany
United Kingdom
Colombia
Brazil
Italy
Austria
Spain
India
South Korea
China
Significant interests to pilot 5G broadcast for digital TV delivery
30
Leading
5G broadcast
innovations for
the new decade
and beyond
Technology leadership
Driving 5G broadcast evolution to address new use
cases and unmet needs in the broadcast ecosystem
Ecosystem momentum
Growing interests from broadcasters, mobile operators,
content providers, and consumers alike
Strong 5G roadmap
Delivering new capabilities and efficiencies with
standalone broadcast and mixed-mode multicast
Follow us on:
For more information, visit us at:
www.qualcomm.com & www.qualcomm.com/blog
Thank you
Nothing in these materials is an offer to sell any of the
components or devices referenced herein.
©2021 Qualcomm Technologies, Inc. and/or its affiliated
companies. All Rights Reserved.
Qualcomm is a trademark of Qualcomm Incorporated,
registered in the United States and other countries. Other
products and brand names may be trademarks or
registered trademarks of their respective owners.
References in this presentation to “Qualcomm” may mean Qualcomm
Incorporated, Qualcomm Technologies, Inc., and/or other subsidiaries
or business units within the Qualcomm corporate structure, as
applicable. Qualcomm Incorporated includes Qualcomm’s licensing
business, QTL, and the vast majority of its patent portfolio. Qualcomm
Technologies, Inc.,
a wholly-owned subsidiary of Qualcomm Incorporated, operates, along
with its subsidiaries, substantially all of Qualcomm’s engineering,
research and development functions, and substantially all of its product
and services businesses, including its semiconductor business, QCT.
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Pioneering 5G broadcast

  • 1. May 2021 @QCOMReseach Pioneering 5G Broadcast Building on multiple generations of cellular broadcast technology leadership
  • 2. 2 2 Source: Ericsson Mobility Report November 2020, Facebook from 5G Broadcast World 2021, Andreessen Horowitz 2019 (https://a16z.com/2019/12/05/video-first-ecommerce/) ~226B Gigabytes monthly global mobile data in 2026 — 665% growth expected since 2019 Video traffic will account for ~80% of overall mobile data traffic by 2022 ~800 million users engaged with live streams on Facebook and Instagram Daily Growing consumption of live sports broadcast, e.g., 7.2M people watched the 2020 UEFA Champions League final on Facebook Live Effective video livestream commerce, e.g., Taobao generated $15B in sales through livestream in 2018) Video continues to be the major traffic driver of our networks
  • 3. 3 Press “enter” to learn more… Video streaming for live events e.g., concerts, sports Livestream commerce e.g., broadcast phone shopping Digital TV broadcast e.g., linear TV delivery Automotive safety e.g., cellular V2X Interactive content e.g., linking to related channels / videos Public safety communication More efficient delivery of mass data and live media content Richer, more immersive and personalized viewer experience Expanded use cases beyond mobile such as automotive Cellular broadcast brings benefits to a wide range of deployments Group firmware update for IoT devices Virtually seamless mobile and fixed access New media formats, e.g., extended Reality (XR) 3
  • 4. 4 4 1 Single-cell point-to-multipoint 5G defines two modes of broadcast communication Addressing diverse ecosystem, deployment, and use case requirements Standalone broadcast Mixed-mode multicast Dedicated broadcasting network to provide a common delivery platform for richer contents and services Addressing broadcaster requirements for content delivery Low-power network supporting dynamic mode switching between unicast and broadcast to more efficiently deliver identical content Addressing mobile operator requirements for improved capacity Single Frequency Network (SFN) for downlink broadcast only Live distribution of mass media content e.g., digital TV, live sports, and digital signage Dynamic switching between broadcast and unicast, e.g., SC-PTM1 Broader 5G use cases e.g., efficient eMBB delivery, SW/FW update, IoT, V2X, and public safety
  • 5. 5 1 High-power, high-tower; 2 Digital Video Broadcasting; 3 Dynamic Adaptive Streaming over HTTP and HTTP Live Streaming; 4 Common Media Application Format Digital TV delivery with 5G broadcast is ready for prime time 5G Standalone Broadcast 3GPP Release 16 Standardization completed Release 16 specifications of 5G broadcast can meet all key requirements for digital TV delivery Spectrum available UHF band (i.e., 470 to 698 MHz) can be used for digital TV broadcast in Europe, China, and other regions Low deployment cost System is designed for high efficiency, quick time-to-market, and reuse of broadcasting HPHT1 infrastructure Tailored for broadcasters Support for receive-only mode, downlink-only, dedicated broadcast spectrum, and more Service layer integration Broadcaster apps, DVB-I2, DASH/HLS3, CMAF4, as well as unicast can be deployed with/on top of 5G broadcast Continued enhancements 5G broadcast technology continues to evolve in future releases, bringing better performance and efficiency
  • 6. 6 5G unlocks new opportunities and efficiencies for the TV broadcasting ecosystem
  • 7. 7 Richer content, new devices, and broader audience reach A new 5G system design can transform digital TV broadcasting
  • 8. 8 Generating new values for the mobile, broadcasting, and broader media ecosystem Provide broader access to the large, existing smartphone user base and new devices (e.g., cars, XR) Allow broadcasters to reach broader audiences and provide higher quality, new experiences Create new partnership opportunities for mobile operators, broadcasters and content creators to drive innovations Enable mobile operators to deliver value-added services using a flexible 5G network that can adapt to future needs
  • 9. 9 9 5G brings innovation opportunities across the TV broadcasting value chain Wirelessly connected studio Field video production Cellular network TV broadcast network New services (e.g., livestream commerce) New experiences and devices (e.g., live sports on XR) Content Production Content Delivery Media Consumption Buy Now
  • 10. 10 10 1 Over-the-top; 2 High-power, high-tower Designing a scalable 5G system for high-quality content delivery 5G standalone broadcast ─ a unified and standardized media delivery framework For broadcasters, content providers, mobile operators, service providers, device manufacturers OTT1 content providers (e.g., streaming media, etc.) Digital TV broadcasters (e.g., TV, paid TV, etc.) Cloud/5G core network Media gateway • Standardized interface for content injection • Unified protocol stack for broadcast and unicast • Reuse building blocks of existing cellular modem functionalities • New and existing devices (e.g., smartphones and receive-only TV) • Wide coverage, higher efficiency, capacity, mobility, … • Shared broadcast for multiple operators • Deployment flexibility (e.g., HPHT2 vs. cellular, fixed vs. mobile, broadcast only vs. dynamic mode switching) Broadcast Addressing unmet needs (Examples) • Efficient support for new and high-quality media formats such as 360o video and virtual reality Combined with unicast service (e.g., eMBB) provided by 5G mobile operators
  • 11. 11 5G has a rich evolution roadmap for broadcast technologies New services, devices, deployments
  • 12. 12 5G Broadcast must support… 3GPP defined 5G broadcast requirements Part of 5G NR Rel-14 Study Item — TR 38.913 1. Existing broadcast services (e.g., download, streaming, group comm., TV) and new services (e.g., V2X) 2. Dynamic adjustments of broadcast area based on e.g., the user distribution or service requirements 3. Concurrent delivery of both unicast and broadcast services to users 4. Efficient multiplexing with unicast transmissions in at least frequency and time domain 5. Static and dynamic resource allocation between broadcast (up to 100%) and unicast 6. Broadcast network sharing between multiple participating operators, including dedicated broadcast network 7. Cover large local, regional, national broadcast areas (e.g., entire country) of up to 100 km cell radius in SFN mode with network synchronization 8. Broadcast for fixed, portable and mobile devices, with speeds up to 250 km/h 9. Leverage usage of access network equipment including e.g., MIMO to improve broadcast capacity and reliability 10. Broadcast services for massive IoT devices (e.g., for OTA firmware update)
  • 13. 13 13 1 Multimedia Broadcast Multicast Service; 2 Enhanced MBMS; 3 MBMS operation on demand; 4 Mission-critical push to talk Building on the learnings from multiple generations of cellular broadcast 5G Broadcast (Rel-16+) Meets all 5G Broadcast requirements, enabling standalone broadcast and expanding to new services Cellular broadcast (MBMS1) first supported in EDGE, CDMA2000 1xEV-DO and WCDMA eMBMS2 defined for LTE, improving coverage and system efficiency eMBMS supports mode switching (MooD3) and expands to MCPTT4 New enhanced TV (enTV) system designed to efficiently support terrestrial digital TV broadcast, (Rel-8/9) (Rel-12/13) (Rel-14) Cellular Broadcast Evolution Focused on the needs of mobile operators Expansion addressing the needs of broadcasters, content providers, and more… The foundation for 5G broadcast spans across generations
  • 14. 14 14 LTE Broadcast was defined to meet the needs of mobile operators Evolving LTE broadcast — the early 3GPP releases Rel-14 Enhanced TV (enTV) System layer features Radio access features Broadcast Rel-8/91 Mixed unicast / MBMS2 carrier 15 kHz numerology Extended CP3 of 16.7µs Multi-cell transmission only in MBSFN4 Up to 60% of subframes for MBSFN transmission Video streaming Integrated transport and service BM-SC5 for MBMS bearer establishment, media formatting, and service announcements Static MBSFN areas Rel-12 Interface to non-3GPP group communication application server (i.e., MCPTT6) Single-cell transmission Transmission on downlink data channel7 with new group identities Non-synchronized transmitters Extending Rel-12 model to other new services such as LTE IoT and C-V2X8 SC-PTM 9 is transparent to the enhanced packet core network A new broadcast system design for digital TV delivery Rel-13 1 3GPP Rel-8 defined physical layer aspects, Rel-9 defined higher layer and network related aspects; 2 Multimedia Broadcast Multicast Service; 3 Cyclic prefix; 4 Multicast broadcast single-frequency network; 5 Broadcast multicast service center, part of EPC — enhanced packet core; 6 Mission-critical push to talk; 7 PDSCH — Physical Downlink Shared Channel; 8 Cellular Vehicle to Everything; 9 Single cell point to multipoint
  • 15. 15 1 Cyclic Prefix; 2 Inter-site distance; 3 Such as CMAF: Common Media Application Format that is compatible with unicast and broadcast stacks; 4 Defined a set of standardized APIs Redefining cellular broadcast for digital TV delivery A new system design addressing the needs of broadcasters, content providers, … System layer enhancements Radio access enhancements Broadcast Broadcast Unicast control xMB Content provider Receive only mode Delivery of free-to-air content to devices without SIM/service subscription Unified protocol stack TV broadcasters can deliver content in native format3 without transcoding Standardized interface4 Content providers can deliver media over 5G Broadcast with a unified framework Shared broadcast Multiple operators can serve users on a common broadcast carrier Longer range 1-symbol numerology with longer 200 µs CP1 to support 15 km ISD2 More broadcast capacity Supports dedicated broadcast network with 100% eMBMS carrier allocation More deployment flexibility Single network for mobile and fixed devices with enhanced support for rooftop reception Better efficiency New subframe design reduces overhead in dedicated broadcast transmissions Rel-14 Enhanced TV (enTV)
  • 16. 16 1 Defined in TR 36.976; 2 Medium-power, medium-tower; 3 High-power, high-tower; 4 Low-power, low-tower Wide ecosystem support in 3GPP List of supporting individual members in RP-193050 (Rel-16) Academy of Broadcasting Science BBC Bittium Wireless BMWi British Telecom Cellnex Telecom CHTTL Dish European Broadcast Union European Space Agency ENENSYS Technologies Expway Fraunhofer IIS Fraunhofer HHI IRT Nomor Nokia Nokia Shanghai Bell One2many Qualcomm Rohde & Schwarz Samsung Shanghai Jiao Tung University Telstra University of the Basque Country Industry/ecosystem activities & minor enhancements in Rel-17 and beyond Rel-14 completed new broadcast design that met many 5G requirements 5G broadcast included as part of the Rel-16 project package in RAN#78 Rel-16 Study Item — a gap analysis — was completed in March 2019 Rel-16 Work Items completed in June 2020 enTV evolution timeline Rel-16 enTV supports more diverse standalone broadcast deployments 2017 2018 2019 2020 2021+ TV broadcast infrastructure: MPMT2 & HPHT3 deployments with rooftop reception Higher mobility: ~250km/h with car-mounted LPLT4 deployment enTV has evolved in Rel-16 to become 5G broadcast1 Fulfilling all 5G requirements defined for broadcast
  • 17. 17 17 Release 16 5G standalone broadcast is designed to improve coverage in various reception scenarios 0.37 kHz subcarrier spacing, CP duration ~300 µs Support for conventional broadcasting, MPMT & HPHT Introduced new numerologies Enhanced coverage and spectral efficiency 2.5 kHz wider subcarrier spacing, CP duration ~100 µs Support high-speed, mobile reception • Dedicated reference signals (RS) accompany each numerology • For HPHT fixed reception, RS pattern is less dense in time domain, reducing overheads • Wider subcarrier spacing improves Doppler resiliency, enhancing mobile reception Rel-16 enTV
  • 18. 18 18 1 Ultra high frequency, i.e., 470 to 698 MHz; 2 In additions to currently support carrier bandwidths of 1.4MHz, 3MHz, 5MHz, 10MHz, 15MHz, 20MHz; 3 Common media application format Adding support for 6/7/8 MHz carrier bandwidths2 to support UHF bands Supporting the new 5G core network in standalone deployment Optimizing modem resource usage and enabling fast broadcast service discovery Targeting low-latency broadcast distribution and 5G media streaming Enhancing reliability/ efficiency with e.g., time-interleaving and better reference signal design Adapt to UHF1 broadcast frequencies Utilize 5G core network for enTV Enhance simultaneous broadcast + unicast Support CMAF3-based streaming ecosystem Further improve system performance Continue to evolve the end-to-end design for 5G standalone broadcast Approved as part of Rel-17 Targeting Rel-18 and beyond
  • 19. 19 19 1 Hybrid automatic repeat request; 2 Modulation and coding scheme 5G NR Rel-17 is adding broader support for mixed-mode multicast Release 16 Multicast is part of 5G V2X communication Release 17 Mixed-mode multicast extends benefits to a wider range of new vertical use cases Enabling dynamic switching between unicast and broadcast (e.g., for public safety use cases) Minimizing impact to device hardware design (e.g., no additional silicon) Supporting improved reliability and system efficiency with HARQ1 feedback and retransmissions Unicast Re Tx NACK ACK ACK
  • 20. 20 20 1 Channel state information 2 Radio access technology Driving new 5G mixed-mode multicast capabilities into Rel-18 and beyond Roaming with carrier aggregation, dual connectivity, and larger SFN area Support enhanced and new deployment Enhance mobility support Enhanced inter- and intra-RAT2 handover supporting LTE and 5G NR core Time interleaving, NACK only, HARQ enhancements, CSI1 feedback, etc. Increase capacity Improve multicast reliability Improve power- savings Improved control channel monitoring and search space switching L2 retransmissions based on feedback from device and support for outer codes Re Tx NACK
  • 21. 21 For more information on 5G broadcast standards… ETSI TS 103 720: Profile of 3GPP specification containing the necessary parts to deploy 5G broadcast TR 36.976: Overall description of enhanced TV (enTV) for 5G broadcast Various specifications of 5G PHY supporting broadcast together with unicast in TS 36.211, 36.212, 36.213
  • 22. 22 We are driving 5G broadcast adoption for digital media delivery and more…
  • 23. 23 23 Qualcomm Snapdragon is a product of Qualcomm Technologies, Inc. and/or its subsidiaries. Taking a system approach to technology innovations Making cellular broadcast a reality Vision Identifying a problem or need, and establishing system requirements We envisioned a more efficient way to deliver mass media over cellular networks Invention Inventing new technologies and end-to-end system architecture We pioneered key cellular broadcast technologies for 3G, 4G, and 5G Proof-of-concept Delivering end-to-end prototypes and impactful demonstrations We showcased cellular broadcast technologies at various industry events Standardization Leading ecosystem towards new projects and driving new system designs We led the mobile and broader industries to standardize cellular broadcast System Trials Collaborating on field trials that track standards development, preparing for commercialization We worked with mobile operators, device manufacturer and content providers on trials Commercialization Engaging with global ecosystems to deploy new products and services We successfully productized cellular broadcast in our products 1 3 2 4 5 6
  • 24. 24 E2E platform for horizontal services Common access technologies Interoperable media formats Standardized APIs Essential for commercializing of our system technology innovations We are actively driving TV broadcasting technology standards Access technologies Network protocols Media formats Services (e.g., digital TV) Technology standards
  • 25. 25 1 3GPP Rel-8 defined physical layer aspects, Rel-9 defined higher layer and network related aspects; 2 For example, RP-121452 eMBMS Radio Enhancements; 3 Multicast operation on Demand in Rel-12, evolving for per cell basis in Rel-13; 4 Mission-critical Push to Talk is part of Rel-12; 5 enTV as an approved new Rel-14 project in RP-160675; 6 5G broadcast requirements defined in 3GPP TS 38.913; 7 Way forward on multicast/broadcast specifications in RP-170774 A long heritage of driving cellular broadcast technologies Over 2 decades of mobile ecosystem and technology R&D leadership for broadcast in 3G, 4G, and 5G 2001 2002 2015 — 2016 2019 — 2020 2012 — 2013 Submitted concept of broadcast design to 3GPP2 TSG-C for CDMA2000 1X EV-DO along with SKT and Samsung 3GPP also started to look at the concept of MBMS for GSM, EDGE, WCDMA; contributed key design MBMS elements and eventually adopted in 3GPP/3GPP2 Led the development, consensus, standardization of enTV in Rel-145 — a new broadcast system design meeting many 5G requirements6 Contributed major sets of eMBMS enhancements2 for Rel-12 including MOOD3 and expansion to MCPTT4 Drove further broadcast enhancements into Rel-16 such as longer inter-site distance and higher speed 2017 2008 — 2010 Drove MBMS into LTE specifications starting in Rel-81 with coverage and efficiency enhancements Led the mobile and broadcast ecosystem leaders to endorse7 our vision of evolving enTV digital broadcast into 5G Continued 5G broadcast technology evolution 3G 4G 5G 2021+ Continue to drive standalone and mixed-mod broadcast into future 5G releases, e.g., Rel-17, 18, and beyond
  • 26. 26 26 We are the rapporteur of Rel-14 SA2 Study and Work Items, Rel-16 RAN Study and Work Items, and more Revised Work Item for enTV-based 5G broadcast in Rel-16 (RP-193050) Approved Work Item for new bands & bandwidth allocation for enTV-based 5G broadcast in Rel-17 (RP-210907) Broad ecosystem support for 5G broadcast based TV delivery Continued support and enhancements of 5G broadcast system design Academy of Broadcasting Science BBC Bittium Wireless BMWi British Telecom Cellnex Telecom CHTTL Dish European Broadcast Union European Space Agency ENENSYS Technologies Expway Fraunhofer IIS Fraunhofer HHI IRT Nomor Nokia Nokia Shanghai Bell One2many Qualcomm Rohde & Schwarz Samsung Shanghai Jiao Tung University Telstra University of the Basque Country Broadcast Network Europe Cellnex Dolby ENENSYS European Broadcasting Union European Space Agency Facebook IIT Bombay FAU OneMedia 3.0 Panasonic Rohde & Schwarz University of the Basque Country ATEME Digital Catapult DTS/Xperi LGE Reliance Jio Saankhya Labs Shanghai Jiao Tung University Qualcomm SyncTechno Inc. TCL Communication TDF Vivo NTT DoCoMo Fraunhofer IIS Fraunhofer HHI
  • 27. 27 Deploying DVB-I as the service layer for 5G broadcast Allowing broadcasters to continue supporting existing service layer and applications Key focus is to create interfaces and APIs to distribute DVB-I services over 5G DVB-I service layer supports low-latency DASH, CMAF and adaptive bit rate multicast DVB Forum has completed the 5G Study Mission, and it is currently working on commercial requirements Effort is supported by a wide range of broadcasters, mobile operators, device OEMs, and technology providers Non-5G IP/HTTP Network DVB-I Headend DVB-I Client API M1d/M2d xMB API M6d/M7d MBMS-API 5G System Operator 5G Broadcast System Broadcast (enTV) Unicast (5G NR)
  • 28. 28 28 Source: https://www.5g-mag.com/ Key members from the 5G and broadcasting ecosystems ABP ATEME BBC B<>com Technology Research Institute Broadcast Networks Europe Cellnex Digital 3 & 4 Dime Comunicaciones Digital TV Group European Broadcasting Union EI Towers European Space Agency France TV EPT Huawei IEEE BTS LG MBI Group Media Broadcast Mediengruppe RTL Nitel NMHH NovelSat NPO ONEMedia ORS Group Polkomtel PROGIRA Rai Mediaset Group RTÉ RTRN RTVE Saankhya Labs Sennheiser Swisscom SWR Qualcomm New 5G Multimedia Action Group to drive 5G broadcast adoption Cross-industry organization comprised of content and service providers, network operators, technology solution suppliers, equipment manufacturers, R&D organizations, regulators and policy makers Main Working Groups (WGs) Content distribution Assesses business and operational models for deployment of 5G system for content delivery Content production and contribution Drives adoption of 5G technologies for professional media production Regulation, policy and spectrum Identifies regulation, policy and spectrum needs related to the activities for content distribution and production Promotion and communication Markets 5G MAG activities, driving interaction with other initiatives, organizations and relevant stakeholders Multiple 5G broadcast trials have been conducted across Europe, visit this page for more information Verizon And growing… BT BAI Communications NABA
  • 29. 29 Source: 5G-MAG and Qualcomm Technologies, Inc. 1 National Radio and Television Administration; 2 Academy of Broadcasting Science; 3 China Broadcasting Network; 4 As of at Indian Mobile Congress 2020 2019-20: NRTA1 is cooperating with ABS2 and CBN3 to setup 5G Broadcast field trials in Beijing 2022: Targeting to commercially deploy 5G broadcast by Winter Olympics in Beijing, and broader national expansion planned afterwards 2020+: TV 3.0 project calling for proposals 2020+: Growing interest in latest broadcast4 technologies 2020-21: Delivery of TV and radio with Rel-14 broadcast trial deployment in Santiago de Tolú 2018-19: Distribution of linear and nonlinear BBC radio using Rel-12/14 broadcast in rural Orkney Islands Late 2021: Distribution of live TV using Rel-16 enTV near Seoul 2020: Distribution of free-to-air linear radio and TV using Rel-14 enTV with HPHT in Barcelona 2020-23: Distribution of TV and radio with Rel-14/16 enTV, also interplaying with eMBB in Vienna 2018: TV delivery with Rel-14 enTV using HPHT in Aosta during European Championship 2020: TV delivery to mobile devices with Rel-14/16 enTV using HPHT in Turin 2020-22: 5G Media2Go audiovisual service for autonomous vehicles with Rel-14/16 enTV in Stuttgart/Heilbronn 2017-20: Distribution of TV with Rel-14 enTV in Munich and Bavarian alpine region Germany United Kingdom Colombia Brazil Italy Austria Spain India South Korea China Significant interests to pilot 5G broadcast for digital TV delivery
  • 30. 30 Leading 5G broadcast innovations for the new decade and beyond Technology leadership Driving 5G broadcast evolution to address new use cases and unmet needs in the broadcast ecosystem Ecosystem momentum Growing interests from broadcasters, mobile operators, content providers, and consumers alike Strong 5G roadmap Delivering new capabilities and efficiencies with standalone broadcast and mixed-mode multicast
  • 31. Follow us on: For more information, visit us at: www.qualcomm.com & www.qualcomm.com/blog Thank you Nothing in these materials is an offer to sell any of the components or devices referenced herein. ©2021 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. Qualcomm is a trademark of Qualcomm Incorporated, registered in the United States and other countries. Other products and brand names may be trademarks or registered trademarks of their respective owners. References in this presentation to “Qualcomm” may mean Qualcomm Incorporated, Qualcomm Technologies, Inc., and/or other subsidiaries or business units within the Qualcomm corporate structure, as applicable. Qualcomm Incorporated includes Qualcomm’s licensing business, QTL, and the vast majority of its patent portfolio. Qualcomm Technologies, Inc., a wholly-owned subsidiary of Qualcomm Incorporated, operates, along with its subsidiaries, substantially all of Qualcomm’s engineering, research and development functions, and substantially all of its product and services businesses, including its semiconductor business, QCT. Source sample text