whitepaper-making-5g-nr-a-reality.pdf
Qualcomm Research 5G NR prototype systems are being utilized to test demonstrate and trial our innovative 5G designs across diverse spectrum bands and
Introduction to 5G
Ref: E. Dahlman S. Parkvall
View on 5G Architecture
5 juil. 2019 The 5G Architecture Working Group as part of the 5G PPP Initiative is looking at capturing novel trends and key technological enablers for ...
MATLAB
Cell barred flag. Are devices allowed in the cell? First PDSCH DM-RS position. Time domain position of 1st DM-RS (type-A). SIB1 numerology.
ETSI TS 138 533 - V16.4.0 - 5G; NR; User Equipment (UE
The content of the PDF version shall not be modified without the written authorization of ETSI. The copyright and the foregoing restriction extend to
Making 5G NR a Commercial Reality A unified more capable 5G air
Qualcomm Research is a division of Qualcomm Technologies Inc. 1. Such as Weighted Overlap Add (WOLA) utilized in LTE systems today. 2.
Modern Wireless Networks 5G Physical Layer
5G Physical Layer. ICEN 574– Spring 2019. Prof. Dola Saha. Page 2. 2. Spectrum Flexibility 5G NR Waveform Specifications. Page 5. 5. LTE Frame Structure.
Fundamentals of 5G Mobile Networks
book they make no representations or warranties with respect to the accuracy or completeness of the contents of this book.
TS 138 300 - V16.4.0 - 5G; NR; NR and NG-RAN Overall description
The content of the PDF version shall not be modified without the written authorization of ETSI. The copyright and the foregoing restriction extend to
5G NR Overview
19 mai 2020 Future proof 5G NR signaling test platform ... Manual tests regularly ... agricultural and construction vehicles for supporting novel ...
Future of 5G
Building a unified, more capable 5G air interface
for the next decade and beyond @qualcomm_techFebruary 2020 2Mobile has made a leap every~10 years
Mobile broadband and
emerging expansionMobile voice
communicationFocus shifts
to mobile dataEfficient voice to
reach billionsA unified future-proof
platform 1990sDigital voice
D-AMPS, GSM,
IS-95 (CDMA)
2000sWireless Internet
CDMA2000/EV-DO
WCDMA/HSPA+,
1980sAnalog voice
AMPS, NMT,
TACS 2010sMobile broadband
LTE, LTE Advanced,
Gigabit LTE
2020sWireless Edge
5G New Radio
(NR) 3Delivering
on the 5G vision Where virtually everyone and everything is intelligently connected 44Diverse services Diverse deployments
Mid-bands
1 GHz to 6 GHz
High-bands
Above 24 GHz (mmWave)
Low-bands
Below 1 GHzMassive Internet
of ThingsDiverse spectrum
5G NR is a unified, more capable air interface
Mission-critical
servicesEnhanced mobile
broadband 5G NRLicensed/shared/unlicensed
Based on ITU vision for IMT-2020 compared to IMT-advanced; URLLC: Ultra Reliable Low Latency Communications; IAB: IntegratedAccess & Backhaul
10xConnection
density 3xSpectrum
efficiency 10xDecrease in
end-to-end latency 10xExperienced
throughput 100xTraffic
capacity 100xNetwork
efficiency 5Monthly global mobile data traffic in 2024
~131B GigabytesIn 2024, ~75% of mobile data traffic from
multi-media creation & consumptionIn 2024, 25% of mobile data traffic will be
carried by 5G networks 1.3x more than4G/3G/2G traffic today
5G will address the insatiable
demand for mobile broadbandOver 60x growth in mobile data traffic
from 2013 to 2024Source: Ericsson Mobility Report June 2019
6Fiber-like data speeds
Low latency for real-time interactivity
More consistent performance
Massive capacity for unlimited data
5G is essential for next
generation mobile experiencesAugmented
realityConnected cloud
computingConnected
vehicleImmersive
experiencesHigh-speed
mobilityRich user-generated
contentMobilizing media
and entertainmentCongested
environments 77Efficient use of
energy and utilitiesDigitized logistics
and retailPrivate networks for logistics,
Sustainable smart cities
and infrastructurePrecision
agricultureReliable access
to remote healthcareSafer, autonomous
transportationEnabler to the factory
of the future $13.2 TrillionPowering the digital economy
In goodsand services by 2035
5Gwill expand the mobile
ecosystem tonew industries* The 5G Economy, an independent study from IHS Markit, Penn Schoen Berland and Berkeley Research Group, commissioned by Qualcomm
Rel-15 commercializationRel-16 commercializationRel-17 commercializationDelivering on
the 5G visionContinue expansion to new verticals,
deployments, use cases, spectrumRel-161
Rel-18+ evolution
Rel-171
Future-proof
platformLTE essential part
of the 5G platform201820202019202220212023+
Rel-15
Driving the 5G expansion
1. 3GPP start date indicates approval of study package (study item->work item->specifications), previous release continues beyond start of next release with functional freezes and ASN.1
2020 eMBBexpansion
New markets/regions
Nationwide coverage & SA migration
Longer term expansion
Industrial IoT, enterprise, automotive network
Private networks
Unlicensed spectrum
2019 eMBB
Global smartphone
launchesFixed wireless access
NR 9North America
South Korea
United Kingdom
SpainGermany
ChinaAustralia
United Arab Emirates
Saudi Arabia
Kuwait
ItalyFinland
SwitzerlandRomania
QatarRussia (soon)
Japan (soon)
Sub-6 + mmWave
Sub-6Comparison of Year 1
announcements4 Operators launched
3 OEMs launched
40+ Operators launching
40+ OEMs launching
Ireland
Bahrain
Philippines
South Africa
Monaco
1010Askey
Inseego
Compal
Fibocom
Qualcomm Snapdragon is a product of Qualcomm Technologies, Inc. and/or its subsidiaries LGV50 ThinQ
5G NubiaMini 5G
Samsung
Galaxy
S10 5G
Lenovo
Z6 Pro 5G
Motorola
moto z4/z3 + 5G moto modOnePlus
7 Pro 5G
OPPOReno 5G
5G devices launched
or in development230+Samsung
Galaxy Fold
Xiaomi
Mi MIX 5G
Vivo iQOO5G Edition
ZTEAxon 10 Pro
5GSamsung
A90 5G
Samsung
Galaxy
Note10+ 5G
VivoNEX 3 5G
Netgear
NokiaSierra
Wireless
SIMcom
TelitLongsung
Quectel
WNC ZTE HTCNetcomm
5G modulesHotspots
and CPEs5G smartphones
Xiaomi
Mi 9 Pro 5G
Xiaomi
Mi MIX Alpha
1111Our LTE advancements are essential to 5G
Providing ubiquitous coverage and essential services that complement 5G NRLTE IoT, private LTE network,
C-V2X are enabling new
mobile use cases todayGigabit LTE is here now
and delivers a virtually seamless5G mobile experience
LTE Advanced Pro leadership
is essential to success in the 5G EraNew 5G NR Sub-6 GHz,and LTE coverage
New 5G NR mmWave
Drone communicationsUbiquitous LTE
Gigabit LTE, VoLTE
nx1 Gigabit 5G nx10 Gigabit 5GAutomotive
(C-V2X)Public safety /
Emergency
servicesExisting LTE
deploymentsPrivate LTE
networksLTE IoT
Gigabit LTE
Digital broadcast
VoLTE 12 5G NR design and technologies3GPP Release-15
1313Scalable OFDM numerology
Low latency, URLLC,
forward compatibilitySelf-containedslot structure
Address diverse services,
spectrum, deploymentsMulti-Edge LDPC and CRC-Aided Polar
Support large data blocks,
reliable control channelReciprocity-basedMU-MIMO
Large # of antennas to increase
coverage/capacityBeamformingand beam-tracking
For extreme capacity
and throughput Our technology inventions drove 5G Rel-15 specifications Early R&D investmentsFundamental contributions to 3GPPCutting-edge prototypesFlexible slot-based
frameworkScalable OFDM-based
air interfaceAdvanced
channel codingMassive
MIMOMobile
mmWave 1414Scalable OFDM-based 5G NR air interface
3GPP Rel-15 specifications aligned with Qualcomm
Research whitepaper published Nov 2015 [link]
Qualcomm Research is a division of Qualcomm Technologies, Inc.1. Such as Weighted Overlap Add (WOLA) utilized in LTE systems today. 2. DFT-Spread (DFT-S) OFDM. 3. Such as non-orthogonal Resource Spread Multiple Access (RSMA)
2nscaling of sub-
carrier spacing to efficiently support wider bandwidthsWindowing1can
effectively minimize in-band and out-of- band emissionsSingle-carrier2
OFDM utilized for
efficient uplink transmissionsCan co-exist
with optimized waveforms and multiple access for IoT UL3 TimeFrequency
Frequency
localizationLower power
consumptionAsynchronous
multiple accessScalable
numerology 1515Scalable 5G NR OFDM numerologyexamples
Efficiently address 5G diverse spectrum, deployments and services Scaling reduces FFT processing complexity for wider bandwidths with reusable hardwareOutdoor macro coverage
e.g., FDD 700 MHzIndoor wideband
e.g., unlicensed 6 GHz mmWave e.g., TDD 28 GHzOutdoor macro and small cell
e.g., TDD 3-5 GHzSub-Carrier spacing, e.g.15 kHz
Carrier bandwidth, e.g. 1,5,10 and 20 MHz
Carrier bandwidth, e.g. 160MHz
Carrier bandwidth, e.g. 400MHz
Carrier bandwidth, e.g. 100 MHz
Sub-Carrier spacing, e.g.30 kHz
Sub-Carrier spacing, e.g.60 kHz
Sub-Carrier spacing, e.g.120 kHz
2nscaling of Sub-Carrier
Spacing (SCS)
1616Global snapshot of allocated/targeted 5G spectrum
5G is being designed for diverse spectrum types/bands
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)3.43.8GHz 24.5-27.5GHz
3.43.8GHz 26GHz
3.43.8GHz 26GHz
3.463.8GHz 26GHz
3.63.8GHz
3.33.6GHz 4.85GHz 24.75-27.5GHz37-42.5GHz
3.423.7GHz
26.5-28.9GHz
4.54.9GHz 27-29.5GHz
3.43.7GHz 39GHz
3.64.1GHz
64-71GHz
37-37.6GHz
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