5g towards 5g commercial deployment - ieee...
TRANSCRIPT
Towards 5G Commercial Deployment
Janne Peisa, Ericsson Research
2017-09-18
5g
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 2
› What is 5G
› Where are we now?
› What comes next
› Summary
Outline
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 3
5G radio access
“NR”No compatibility constraints
Tight interworkingLTE Evolution
1 GHz 3 GHz 10 GHz 30 GHz 100 GHz 1 GHz 3 GHz 10 GHz 30 GHz 100 GHz
Gradual migration
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 4
LOW COST, LOW ENERGY
SMALL DATA VOLUMES
MASSIVE NUMBERS
ULTRA RELIABLE
VERY LOW LATENCY
VERY HIGH AVAILABILITY
Enhanced Broadband
Smartphones
4k/8k UHD, Broadcasting, VR/AR,
Home, Enterprise, Venues, Mobile/Wireless/Fixed
Non-SIM
devices
Massive MTC
CAPILLARY NETWORKS
LOGISTICS, TRACKING AND FLEET MANAGEMENT
SMART
AGRICULTURE
SMART BUILDING
SMART
METER
5G – classes of use casesCritical MTC
TRAFFIC SAFETY & CONTROL
INDUSTRIAL APPLICATION
& CONTROL
REMOTE
MANUFACTURING,
TRAINING, SURGERY
MTC – Machine-Type Communication© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 5
3GPP RAN 5g timeplan
Rel-15Rel-14 Rel-16
NR Study Item NR WI Phase 1
LTE evo LTE evo LTE evo
Requirements ProposalsITU
3GPP
Specifications
2015 2016 2017 2018 2019 2020
IMT-2020
EvaluationSI: Channel mod.
SI: Requirements
NR WIs Phase 2NR SIs Phase 2
non standalone standalone
Full IMT2020
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 6
– Further Enhanced Licensed-Assisted Access
– Coordinated Base Stations
– Network based CRS reduction
– Enhancements for Fixed Wireless Access
– Further Latency reduction
– Critical MTC
› Ultra reliability
› Optimized support for aerial vehicles
› 3GPP V2X based on LTE (Phase 2)
– Further enhanced mMTC (eMTC & NB-IOT)
LTE Rel-15Enhance
mobile
broadband
Expand
into new
use cases
Further
enhancements
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 7
› OFDM with scalable numerology
› Massive MIMO/beamforming
› Lean design for energy efficiency and
forward compatibility
› (dynamic) TDD & FDD
+flexible duplex
› NR/LTE co-channel coexistence
– DL & UL
› Higher layer CU/DU split
› Network slicing
› Targeting eMBB and URLLC
› Frequency ranges up to 52.6 GHz
– 3.5GHz, 28GHz, 39GHz, 4.4GHz, …
› Deployment options
+Stand-alone
+LTE-NR Dual Connectivity
+NR-NR Carrier Aggregation
+NR-NR Dual Connectivity (with 2nd priority)
NR PhaSE 1 Contents
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 8
LOW COST, LOW ENERGY
SMALL DATA VOLUMES
MASSIVE NUMBERS
ULTRA RELIABLE
VERY LOW LATENCY
VERY HIGH AVAILABILITY
Enhanced Broadband
Smartphones
4k/8k UHD, Broadcasting, VR/AR,
Home, Enterprise, Venues, Mobile/Wireless/Fixed
Non-SIM
devices
Massive MTC
CAPILLARY NETWORKS
LOGISTICS, TRACKING AND FLEET MANAGEMENT
SMART
AGRICULTURE
SMART BUILDING
SMART
METER
5G – classes of use casesCritical MTC
TRAFFIC SAFETY & CONTROL
INDUSTRIAL APPLICATION
& CONTROL
REMOTE
MANUFACTURING,
TRAINING, SURGERY
MTC – Machine-Type Communication© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 9
3GPP M-MTC technologies
Device receives part of LTE carrier
Devices Multiplexed across LTE carrier
Leverage full capacity of wideband LTE carrier
Cat-M1
Device receives NB-IoT carrier (separate cell)
The capacity of NB-IoT carrier is shared by all devices
Capacity is scalable by adding additional NB-IoT carriers
200kHz
200kHz
200kHz
LTE LTE
LTE
GSM STAND ALONE
GUARD BAND
INBANDNB-IoT
1.4MHz
DEVICE 2DEVICE 1
1.4MHz
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 10
› Use cases
– Utilities in many cases the first use case; smart water and gas meters
– Tracking and logistics
– Automotive segment
› Strong global interest in both Cat-M1 and NB-IoT
– Trials and initial deployments happening now
use cases and status
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 11
LOW COST, LOW ENERGY
SMALL DATA VOLUMES
MASSIVE NUMBERS
ULTRA RELIABLE
VERY LOW LATENCY
VERY HIGH AVAILABILITY
Massive MTC
CAPILLARY NETWORKS
LOGISTICS, TRACKING AND FLEET MANAGEMENT
SMART
AGRICULTURE
SMART BUILDING
SMART
METER
5G – classes of use casesCritical MTC
TRAFFIC SAFETY & CONTROL
INDUSTRIAL APPLICATION
& CONTROL
REMOTE
MANUFACTURING,
TRAINING, SURGERY
© Ericsson AB 2017MTC – Machine-Type Communication
Enhanced Broadband
Smartphones
4k/8k UHD, Broadcasting, VR/AR,
Home, Enterprise, Venues, Mobile/Wireless/Fixed
Non-SIM
devices
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 12
Momentum for 5G spectrum convergenceCurrent assumptions
1 GHz 30 GHz
Coverage, IoT, OPEX Coverage & Capacity Very high bitrates/low latency
entu
Longer-term Early
?
WRC-19 AI 1.13 band
600/700 MHz 3.1–4.2 GHz 4.4–4.99 GHz 26/28 GHz
32 GHz
38/42 GHz
66-71 GHz
3 GHz 4 GHz 5 GHz 20 GHz 100 GHz
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 13
› Fixed wireless access (28 GHz)
› LTE + NR Dual Connectivity on 3.5 GHz
› Stand-alone NR on low frequencies (600/700 MHz)
Candidates for Initial deployments
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 14
› 5G radio access = LTE evolution + NR
› Both LTE and NR will address MBB and new use cases
› Initial massive MTC deployments happening now using LTE Cat-M1 and NB-IOT
› First NR deployments expected to address MBB and fixed wireless use cases
Summary
© Ericsson AB 2017
STAR project meeting #3 | Ericsson Confidential | 2017-06-09 | Page 15