Leading the World to 5G @qualcomm_tech June 12 th , 2019 5G GUIRR | Washington, D.C. Transformational Impact of 5G Dr. John Smee Vice President, Engineering Qualcomm Technologies, Inc.
Leading the World to 5G
@qualcomm_techJune 12th, 2019 5G GUIRR | Washington, D.C.
Transformational Impact of 5G
Dr. John Smee
Vice President, Engineering
Qualcomm Technologies, Inc.
2
Transforming industries
Connecting virtually everythingat the wireless edge
Redefined computing
Desktop to smartphones
Digitized mobile communications
Analog to digital
Leading mobile innovation for over 30 years
Transforming how the world connects, computes and communicates
3
A unifying connectivity fabric for societyLike electricity, you will just expect it everywhere
Scalable to extreme simplicity
44
Efficient use of energy and utilities
Digitized logisticsand retail
Private networks for logistics, enterprises, industrial,…
Sustainable smart citiesand infrastructure
Precision agriculture
Reliable accessto remote healthcare
Safer, autonomous transportation
Enabler to the factory of the future
>$12 TrillionPowering the digital economy
In goods and services by 2035*
5G will expand the mobileecosystem to new industries
* The 5G Economy, an independent study from IHS Markit, Penn Schoen Berland and Berkeley Research Group, commissioned by Qualcomm
55
Diverse services Diverse deployments
Mid-bands1 GHz to 6 GHz
High-bandsAbove 24 GHz (mmWave)
Low-bandsBelow 1 GHz
Massive Internet
of Things
Diverse spectrum
NR Designing a unified, more capable 5G air interface
Mission-critical
services
Enhanced mobile
broadband
5GNR
Licensed/shared/unlicensed
• Based on ITU vision for IMT-2020 compared to IMT-advanced; URLLC: Ultra Reliable Low Latency Communications; IAB: Integrated Access & Backhaul
10xConnection density
3xSpectrumefficiency
10xDecrease inend-to-end latency
10xExperienced throughput
100xTrafficcapacity
100xNetwork efficiency
66
Address diverse services,
spectrum, deployments
Scalable OFDM-based air interface
Scalable OFDM
numerology
Flexible slot-based framework
Self-contained
slot structure
Advanced channel coding
Massive MIMO
Mobile mmWave
Multi-Edge LDPC and
CRC-Aided Polar
Reciprocity-based
MU-MIMO
Low latency, URLLC,
forward compatibility
Support large data blocks,
reliable control channel
Large # of antennas to
increase coverage/capacity
For extreme capacity
and throughput
Beamforming
and beam-tracking
Our technology inventions drove Rel-15 specifications
Early R&D investments | Best-in-class prototypes | Fundamental contributions to 3GPP
77
Designed for diverse spectrum bands/typesGlobal snapshot of 5G spectrum bands allocated or targeted
Licensed
Unlicensed /shared
Existing band
New 5G band
600MHz (2x35MHz)
3.55-
3.7GHz
24.25-24.45GHz
24.75-25.25GHz
27.5-28.35GHz
700MHz (2x30 MHz) 3.4–3.8GHz 24.5-27.5GHz
3.4–3.8GHz 26GHz
3.4–3.8GHz 26GHz
3.46–3.8GHz 26GHz
3.6–3.8GHz
3.3–3.6GHz 4.8–5GHz 24.25-27.5GHz 37-42.5GHz
3.42–3.7GHz 26.5-28.9GHz
4.5–5GHz 27-29.5GHz
3.4–3.7GHz 39GHz
3.6–4.1GHz
64-71GHz
37-37.6GHz
37.6-40GHz
47.2-48.2GHz
5.9–6.4GHz
5.9–7.1GHz
600MHz (2x35MHz)26.5-27.5GHz
27.5-28.35GHz 64-71GHz
2.5GHz (B41/n41)
37-37.6GHz
37.6-40GHz
24.25-27.5GHz
26.5-27.5GHz
3.7-
4.2GHz
3.55-3.7 GHz
700MHz (2x30 MHz)
700MHz (2x30 MHz)
700MHz (2x30 MHz)
700MHz (2x30 MHz)
5GHz4GHz3GHz<1GHz 24-28GHz 37-40GHz 64-71GHz
3.45-
3.55GHz
2.5GHz (B41/n41)
8
eMBB deployments in both mmWave and sub-6 GHz
Expanding to new industries and new use cases
Continued evolution and maintenance of LTE as part of the 5G Platform
Driving the 5G roadmap and ecosystem expansion
Rel-15 Rel-16 Rel-17
2018 20202019 20222021 2023 2024+
Delivering on the 5G vision with support for new verticals
New deployments, spectrum, use cases, verticals,…
Initial private networks,
industrial IoT, indoor mmWave
boundless XR, and more
Smartphones,
connected laptops,
CPE fixed access
eMBB evolution, industrial IoT with eURLLC, in-band mIoT, unlicensed spectrum (NR-U), IAB, 5G NR C-V2X,…
Candidates: NR-Light, NR-U across all use cases, even higher spectrum, expanded sidelink, eMBB foundation improvements, enhancements for key areas like C-V2X, ,…
Continued expansion and enhancements
Rel-161 Rel-18+ evolutionRel-171Rel-15
NR
Commercialization
Standardization
Future proof platform
1. 3GPP start date indicates approval of the study package (initial study items -> work items -> specifications), the previous release overlaps and continues beyond start of next release with functional freezes and ASN.1 completion
EuropeSub-6 and mmWave(mmW in 2H19)
North AmericaSub-6 and mmWave
JapanSub-6 and mmWave
South KoreaSub-6 and mmWave(mmW in 2H19)
Australia / SEASub-6
ChinaSub-6
4 Operatorslaunched
3 OEMslaunched
Comparison of Year 1 announcements
20+ Operatorslaunched
20+ OEMslaunched
2019 is the year of 5GGlobal commercialization moving faster than 4G
Middle EastSub-6
10
Industry-leading R&D
End-to-endsystem
prototypes
Interoperability testing and field trials
Commercial 5G NR mmWave
networksand products
Qualcomm®
Snapdragon™
X50 5G modem& Snapdragon 855
Mobile Platform
Making 5G NR a commercial reality in 2019
Qualcomm Snapdragon are products of Qualcomm Technologies, Inc. and/or its subsidiaries.
Interoperableglobal
standards
Network and system simulations
11
Accelerating 5G innovations with end-to-end over-the-air test networks
5G NR CoMPAdvanced CoMP network for testing of IIoT /
eURLLC use cases and 5G NR spectrum sharing
Outdoor 5G NR mmWave28 GHz network for mmWave performance
testing under different real-life scenarios
Validate our advanced system designs and drive standardization
Demonstrate future system capabilities that expand 5G to new use cases
Refine 5G algorithms to further improve performance and efficiency
Indoor 5G NR mmWave28 GHz network for coverage, mobility, and
robustness testing in an indoor walled office
5G NR Sub-6 GHz SA3.5 GHz standalone network for testing of advanced
multi-user massive MIMO implementation
12
Driving the best possible on-device capabilities
Latency as lowas 1 ms
Latency could beover 100s ms today
Augmented by edge cloudCloud
Big data, AI training, less delay sensitive content, storage,…
Deeperin network
On-premisefactory/venue
Economic and performance tradeoffs
Compute/processing, content,
control, storage,.. closer to user1
Sensing, processing,
security, intelligence
Cooperation between operators, infra vendors, OEMs, content providers, cloud providers,…
Transforming the wireless edgeDelivering new and enhanced services with 5G + AI
1. Such as distributed/virtualized core, distributed packet gateway functionality for low latency, mobile edge compute, related to MEC Multi Access Edge Computing as defined by ETSI?
Industrial IoT with
URLLC
Future services
unknown today
Smarter
transportation
with C-V2X
On-device
virtual assistant
Immersive
boundless XR
Instant cloud
access, gaming
13
Sensors Utilities
Smart city
V2V
Enhanced network communication
New direct communication
MassiveInternet of Things
V2V, V2I, and V2P are independent of cellular
network or cellular subscription for latency-
sensitive use-cases, e.g. collision avoidance
Deeper coverage to connect road
infrastructure(e.g. sensors and traffic cameras)
Faster access to cloud for in-vehicle
experiences and car OEM services and
telematics
V2I
V2N
V2N
5G NR automotive private network for transportation use cases
Road safety Transportation efficiencyCar OEM services In-vehicle experiences Connected road sensors
Speed harmonization
Road hazard waning
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