14 nicc 2018 5g update · phy rf high-rlc rrc sdap/ pdcp data low-rlc high-mac high-phy low-mac...
TRANSCRIPT
British Telecommunications plc 2017
5G 5G 5G 5G ---- an update on progress towards commercial launchan update on progress towards commercial launchan update on progress towards commercial launchan update on progress towards commercial launch
Andy SuttonPrincipal Network ArchitectArchitecture & StrategyBT Technology November 2018
British Telecommunications plc 2018
Contents
• 5G use cases and performance requirements
• 5G demonstration at Canary Wharf
• Spectrum
• EN-DC (Option 3x) network architecture
• RAN functional decomposition
• Multi-RAT network and access network connectivity
• Summary
2
British Telecommunications plc 2018
5G services and use cases (5G Americas)
4
Source: http://www.5gamericas.org/files/3215/1190/8811/5G_Services_and_Use_Cases.pdf
British Telecommunications plc 2018
ITU-R IMT-2020 requirements - selected parameters
The minimum requirements for eMBB peak data rate are
as follows:
– Downlink peak data rate is 20Gbps
– Uplink peak data rate is 10Gbps
The minimum requirements for eMBB peak spectral
efficiencies are as follows:
– Downlink peak spectral efficiency is 30 bit/s/Hz
– Uplink peak spectral efficiency is 15 bit/s/Hz
The target values for the user experienced data rate are
as follows in the Dense Urban – eMBB test environment:
– Downlink user experienced data rate is 100Mbps
– Uplink user experienced data rate is 50Mbps
The minimum requirements for 1-way user plane latency
over the radio interface are:
– 4 ms for eMBB
– 1 ms for URLLC (3GPP target = 0.5ms)
The minimum requirement for control plane latency is
20ms (Proponents are encouraged to consider lower
control plane latency, e.g. 10ms) 3GPP target = 10ms)
The minimum requirement for mMTC connection density
is 1,000,000 devices per km2
The minimum requirement for eMBB and URLLC mobility
interruption time is 0ms
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British Telecommunications plc 2018
5G demo at Canary Wharf
6
Highlights
• 1.3Gbps to test equipment (30 MHz LTE + 40 MHz NR)
• 600Mbps to Huawei 5G CPE (5 MHz LTE + 40 MHz NR)
• 4T4R LTE (15 MHz 2100 + 15 MHz 2600) with 64T64R NR
British Telecommunications plc 2018
Ofcom and RSPG has identified three pioneer bands for 5G in Europe
700 MHz band – to provide a coverage layer
2 x 30 MHz + 20 MHz centre gap – SDL – 2019 auction
3.4 – 3.8 GHz band – to provide a large amount of contiguous spectrum for high-data rate and low-latency
services and a capacity solution in congested areas
150 MHz in the 3.4 – 3.6 GHz band in 2018 (auction complete) - 116 MHz in 3.6 - 3.8 GHz band – 2019 auction
26 GHz band – to provide “fibre-like” data rates and very low latencies at short distance, as a capacity
solution in very congested hotspots
24.25 – 27.5 GHz – date tbd, likely auction post WRC2019
[Note: Existing bands could be refarmed and more bands are likely in the future…]
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British Telecommunications plc 2018
5G spectrum bands approved by 3GPP
NR operating NR operating NR operating NR operating
bandbandbandband
Uplink (UL) operating bandUplink (UL) operating bandUplink (UL) operating bandUplink (UL) operating band
BS receive / UE transmitBS receive / UE transmitBS receive / UE transmitBS receive / UE transmit
FFFFUL_lowUL_lowUL_lowUL_low –––– FFFFUL_highUL_highUL_highUL_high
Downlink (DL) operating bandDownlink (DL) operating bandDownlink (DL) operating bandDownlink (DL) operating band
BS transmit / UE receiveBS transmit / UE receiveBS transmit / UE receiveBS transmit / UE receive
FFFFDL_lowDL_lowDL_lowDL_low –––– FFFFDL_highDL_highDL_highDL_high
DDDDuuuupppplllleeeexxxx MMMMooooddddeeee
n1n1n1n1 1920 MHz 1920 MHz 1920 MHz 1920 MHz –––– 1980 MHz1980 MHz1980 MHz1980 MHz 2110 MHz 2110 MHz 2110 MHz 2110 MHz –––– 2170 MHz2170 MHz2170 MHz2170 MHz FDDFDDFDDFDD
n2n2n2n2 1850 MHz 1850 MHz 1850 MHz 1850 MHz –––– 1910 MHz1910 MHz1910 MHz1910 MHz 1930 MHz 1930 MHz 1930 MHz 1930 MHz –––– 1990 MHz1990 MHz1990 MHz1990 MHz FDDFDDFDDFDD
n3n3n3n3 1710 MHz 1710 MHz 1710 MHz 1710 MHz –––– 1785 MHz1785 MHz1785 MHz1785 MHz 1805 MHz 1805 MHz 1805 MHz 1805 MHz –––– 1880 MHz1880 MHz1880 MHz1880 MHz FDDFDDFDDFDD
n5n5n5n5 824 MHz 824 MHz 824 MHz 824 MHz –––– 849 MHz849 MHz849 MHz849 MHz 869 MHz 869 MHz 869 MHz 869 MHz –––– 894 MHz894 MHz894 MHz894 MHz FDDFDDFDDFDD
n7n7n7n7 2500 MHz 2500 MHz 2500 MHz 2500 MHz –––– 2570 MHz2570 MHz2570 MHz2570 MHz 2620 MHz 2620 MHz 2620 MHz 2620 MHz –––– 2690 MHz2690 MHz2690 MHz2690 MHz FDDFDDFDDFDD
n8n8n8n8 880 MHz 880 MHz 880 MHz 880 MHz –––– 915 MHz915 MHz915 MHz915 MHz 925 MHz 925 MHz 925 MHz 925 MHz –––– 960 MHz960 MHz960 MHz960 MHz FDDFDDFDDFDD
n12n12n12n12 699 MHz 699 MHz 699 MHz 699 MHz –––– 716 MHz716 MHz716 MHz716 MHz 729 MHz 729 MHz 729 MHz 729 MHz –––– 746 MHz746 MHz746 MHz746 MHz FDDFDDFDDFDD
n20n20n20n20 832 MHz 832 MHz 832 MHz 832 MHz –––– 862 MHz862 MHz862 MHz862 MHz 791 MHz 791 MHz 791 MHz 791 MHz –––– 821 MHz821 MHz821 MHz821 MHz FDDFDDFDDFDD
n25n25n25n25 1850 MHz 1850 MHz 1850 MHz 1850 MHz –––– 1915 MHz1915 MHz1915 MHz1915 MHz 1930 MHz 1930 MHz 1930 MHz 1930 MHz –––– 1995 MHz1995 MHz1995 MHz1995 MHz FDDFDDFDDFDD
n28n28n28n28 703 MHz 703 MHz 703 MHz 703 MHz –––– 748 MHz748 MHz748 MHz748 MHz 758 MHz 758 MHz 758 MHz 758 MHz –––– 803 MHz803 MHz803 MHz803 MHz FDDFDDFDDFDD
n34n34n34n34 2010201020102010 MHz MHz MHz MHz –––– 2025202520252025 MHzMHzMHzMHz 2010201020102010 MHz MHz MHz MHz –––– 2025202520252025 MHzMHzMHzMHz TDDTDDTDDTDD
n38n38n38n38 2570 MHz 2570 MHz 2570 MHz 2570 MHz –––– 2620 MHz2620 MHz2620 MHz2620 MHz 2570 MHz 2570 MHz 2570 MHz 2570 MHz –––– 2620 MHz2620 MHz2620 MHz2620 MHz TDDTDDTDDTDD
n39n39n39n39 1880188018801880 MHz MHz MHz MHz –––– 1920192019201920 MHzMHzMHzMHz 1880188018801880 MHz MHz MHz MHz –––– 1919191920 MHz20 MHz20 MHz20 MHz TDDTDDTDDTDD
n40n40n40n40 2300 MHz 2300 MHz 2300 MHz 2300 MHz –––– 2400 MHz2400 MHz2400 MHz2400 MHz 2300 MHz 2300 MHz 2300 MHz 2300 MHz –––– 2400 MHz2400 MHz2400 MHz2400 MHz TDDTDDTDDTDD
n41n41n41n41 2496 MHz 2496 MHz 2496 MHz 2496 MHz –––– 2690 MHz2690 MHz2690 MHz2690 MHz 2496 MHz 2496 MHz 2496 MHz 2496 MHz –––– 2690 MHz2690 MHz2690 MHz2690 MHz TDDTDDTDDTDD
n50n50n50n50 1432 MHz 1432 MHz 1432 MHz 1432 MHz –––– 1517 MHz1517 MHz1517 MHz1517 MHz 1432 MHz 1432 MHz 1432 MHz 1432 MHz –––– 1517 MHz1517 MHz1517 MHz1517 MHz TDDTDDTDDTDD
n51n51n51n51 1427 MHz 1427 MHz 1427 MHz 1427 MHz –––– 1432 MHz1432 MHz1432 MHz1432 MHz 1427 MHz 1427 MHz 1427 MHz 1427 MHz –––– 1432 MHz1432 MHz1432 MHz1432 MHz TDDTDDTDDTDD
n66n66n66n66 1710 MHz 1710 MHz 1710 MHz 1710 MHz –––– 1780 MHz1780 MHz1780 MHz1780 MHz 2110 MHz 2110 MHz 2110 MHz 2110 MHz –––– 2200 MHz2200 MHz2200 MHz2200 MHz FDDFDDFDDFDD
n70n70n70n70 1695 MHz 1695 MHz 1695 MHz 1695 MHz –––– 1710 MHz1710 MHz1710 MHz1710 MHz 1995 MHz 1995 MHz 1995 MHz 1995 MHz –––– 2020 MHz2020 MHz2020 MHz2020 MHz FDDFDDFDDFDD
n71n71n71n71 663 MHz 663 MHz 663 MHz 663 MHz –––– 698 MHz698 MHz698 MHz698 MHz 617 MHz 617 MHz 617 MHz 617 MHz –––– 652 MHz652 MHz652 MHz652 MHz FDDFDDFDDFDD
n74n74n74n74 1427 MHz 1427 MHz 1427 MHz 1427 MHz –––– 1470 MHz1470 MHz1470 MHz1470 MHz 1475 MHz 1475 MHz 1475 MHz 1475 MHz –––– 1518 MHz1518 MHz1518 MHz1518 MHz FDDFDDFDDFDD
n75n75n75n75 N/AN/AN/AN/A 1432 MHz 1432 MHz 1432 MHz 1432 MHz –––– 1517 MHz1517 MHz1517 MHz1517 MHz SDLSDLSDLSDL
n76n76n76n76 N/AN/AN/AN/A 1427 MHz 1427 MHz 1427 MHz 1427 MHz –––– 1432 MHz1432 MHz1432 MHz1432 MHz SDLSDLSDLSDL
n77n77n77n77 3300 MHz 3300 MHz 3300 MHz 3300 MHz –––– 4200 MHz4200 MHz4200 MHz4200 MHz 3300 MHz 3300 MHz 3300 MHz 3300 MHz –––– 4200 MHz4200 MHz4200 MHz4200 MHz TDDTDDTDDTDD
n78n78n78n78 3300 MHz 3300 MHz 3300 MHz 3300 MHz –––– 3800 MHz3800 MHz3800 MHz3800 MHz 3300 MHz 3300 MHz 3300 MHz 3300 MHz –––– 3800 MHz3800 MHz3800 MHz3800 MHz TDDTDDTDDTDD
n79n79n79n79 4400 MHz 4400 MHz 4400 MHz 4400 MHz –––– 5000 MHz5000 MHz5000 MHz5000 MHz 4400 MHz 4400 MHz 4400 MHz 4400 MHz –––– 5000 MHz5000 MHz5000 MHz5000 MHz TDDTDDTDDTDD
n80n80n80n80 1710 MHz 1710 MHz 1710 MHz 1710 MHz –––– 1785 MHz1785 MHz1785 MHz1785 MHz N/AN/AN/AN/A SUL SUL SUL SUL
n81n81n81n81 880 MHz 880 MHz 880 MHz 880 MHz –––– 915 MHz915 MHz915 MHz915 MHz N/AN/AN/AN/A SUL SUL SUL SUL
n82n82n82n82 832 MHz 832 MHz 832 MHz 832 MHz –––– 862 MHz862 MHz862 MHz862 MHz N/AN/AN/AN/A SUL SUL SUL SUL
n83n83n83n83 703 MHz 703 MHz 703 MHz 703 MHz –––– 748 MHz748 MHz748 MHz748 MHz N/AN/AN/AN/A SULSULSULSUL
n84n84n84n84 1920 MHz 1920 MHz 1920 MHz 1920 MHz –––– 1980 MHz1980 MHz1980 MHz1980 MHz N/AN/AN/AN/A SULSULSULSUL
n86n86n86n86 1710 MHz 1710 MHz 1710 MHz 1710 MHz –––– 1780 MHz1780 MHz1780 MHz1780 MHz N/AN/AN/AN/A SULSULSULSUL
9
NR operating bandNR operating bandNR operating bandNR operating band Uplink (UL) and Downlink (DL) operating bandUplink (UL) and Downlink (DL) operating bandUplink (UL) and Downlink (DL) operating bandUplink (UL) and Downlink (DL) operating band
BS transmit/receiveBS transmit/receiveBS transmit/receiveBS transmit/receive
UE transmit/receiveUE transmit/receiveUE transmit/receiveUE transmit/receive
FFFFUL_lowUL_lowUL_lowUL_low –––– FFFFUL_highUL_highUL_highUL_high
FFFFDL_lowDL_lowDL_lowDL_low –––– FFFFDL_highDL_highDL_highDL_high
Duplex ModeDuplex ModeDuplex ModeDuplex Mode
n257n257n257n257 26500 MHz 26500 MHz 26500 MHz 26500 MHz –––– 29500 MHz29500 MHz29500 MHz29500 MHz TDDTDDTDDTDD
n258n258n258n258 24250 MHz 24250 MHz 24250 MHz 24250 MHz –––– 27500 MHz27500 MHz27500 MHz27500 MHz TDDTDDTDDTDD
n260n260n260n260 37000 MHz 37000 MHz 37000 MHz 37000 MHz –––– 40000 MHz40000 MHz40000 MHz40000 MHz TDDTDDTDDTDD
n261n261n261n261 27500 MHz 27500 MHz 27500 MHz 27500 MHz –––– 28350 MHz28350 MHz28350 MHz28350 MHz TDDTDDTDDTDD
NR operating bands in FR1
Maximum of 100 MHz channel bandwidth
NR operating bands in FR2
Maximum of 400 MHz channel bandwidth
Source: 3GPP TS 38.104 NR; Base Station (BS) radio transmission and reception
British Telecommunications plc 2018
• Current FDD LTE is typically 2T2R (2x2) or 4T4R (4x4), 5G TDD will typically utilise 8T8R (8x8) and 64T64R (64X64)
• 16T16R and 32T32R systems are expected in the near future, along with hybrid (active/passive) antennas
• 3.5 GHz NR downlink will exceed uplink reach (particularly with M-MIMO) however systems supports a flexible
separation of control and user plane which allows downlink and uplink to be on different bands and technologies
Antenna system evolution towards massive-MIMO
10
British Telecommunications plc 2018
Option 3x network architecture supporting legacy terminals
12
gNBgNBgNBgNB
UGWUGWUGWUGW MME poolMME poolMME poolMME pool UGW+UGW+UGW+UGW+
LegacyLegacyLegacyLegacy
UEUEUEUE
S1-u S1-c
LTE-uLTE-c
eNBeNBeNBeNB
British Telecommunications plc 2018
Option 3x network architecture supporting VoLTE
13
gNBgNBgNBgNB
UGWUGWUGWUGW MME poolMME poolMME poolMME pool UGW+UGW+UGW+UGW+
Legacy Legacy Legacy Legacy
or R15or R15or R15or R15
UEUEUEUE
S1-u S1-c
LTE-uLTE-c
eNBeNBeNBeNB
British Telecommunications plc 2018
Option 3x network architecture supporting EN-DC
14
gNBgNBgNBgNB
UGWUGWUGWUGW MME poolMME poolMME poolMME pool UGW+UGW+UGW+UGW+
R15R15R15R15
UEUEUEUE
S1-uS1-c
NR-uLTE-uLTE-c
X2-u
X2-c
eNBeNBeNBeNB
British Telecommunications plc 2018
Option 3x network architecture supporting EN-DC
15
gNBgNBgNBgNB
UGWUGWUGWUGW MME poolMME poolMME poolMME pool UGW+UGW+UGW+UGW+
R15R15R15R15
UEUEUEUE
S1-uS1-c
NR-uLTE-uLTE-c
X2-u
X2-c
eNBeNBeNBeNB
Dual Connectivity between
1 x NR carrier and a maximum
of 5 x LTE carriers
British Telecommunications plc 2018
RAN functional decomposition
17
gNBgNBgNBgNB
RU*RU*RU*RU* DUDUDUDU CUCUCUCU
* RU could be integrated within AAU (mMIMO) or standalone RU (RRU/RRH)
with coaxial connections to passive antenna (typically 8T8R)
CPRI
eCPRI
F1
interface
S1 interface (EPC+)
N2/N3 interfaces (NGC)
NR (air)
interface
British Telecommunications plc 2018
RAN functional splits - protocol architecture
18
RRC
SDAP/
PDCP
Data
Low-
RLC
High-
MAC
High-
PHY
Low-
MAC
Low-
PHY RFHigh-
RLC
RRC
SDAP/
PDCP
Data
Low-
RLC
High-
MAC
High-
PHY
Low-
MAC
Low-
PHY RFHigh-
RLC
Option
1
Option
2
Option
3
Option
4
Option
5
Option
6
Option
7
Option
8
Relaxed Very lowEnd to end
latency
Traffic/capacity related Very highCapacity
requirement
Higher layer splits Lower layer splits
CPRIeCPRIF1
Reference 3GPP TR 38.801
British Telecommunications plc 2018
5G within a multi-RAT network deployment - DRAN scenario
20
3G3G3G3G
4G4G4G4G1111
5G5G5G5G
CSGCSGCSGCSGOSAOSAOSAOSA
----FCFCFCFC
OSAOSAOSAOSA
----FCFCFCFC
21C21C21C21C
MSEMSEMSEMSE
DDDD
WWWW
DDDD
MMMM
DDDD
WWWW
DDDD
MMMM
21C21C21C21C
MSEMSEMSEMSE
Mobile Mobile Mobile Mobile
core core core core
networksnetworksnetworksnetworks2222
21C IP/MPLS network
(P routers not illustrated)
Openreach Point to point
DWDM solution
Future-proofed for network
sharing and RAN evolution
n x λ
(can bypass
CSG)
1 - 2G is supported on the same base station as 4G (SRAN/Multi-RAT)2 - Includes RNC for 3G and IP Sec GW for 4G and 5G
PRTC
sync source
British Telecommunications plc 2018
5G within a multi-RAT network deployment - DRAN scenario
21
3G3G3G3G
4G4G4G4G1111
5G5G5G5G
CSGCSGCSGCSGOSAOSAOSAOSA
----FCFCFCFC
OSAOSAOSAOSA
----FCFCFCFC
21C21C21C21C
MSEMSEMSEMSE
DDDD
WWWW
DDDD
MMMM
DDDD
WWWW
DDDD
MMMM
21C21C21C21C
MSEMSEMSEMSE
Mobile Mobile Mobile Mobile
core core core core
networksnetworksnetworksnetworks2222
21C IP/MPLS network
(P routers not illustrated)
Openreach Point to point
DWDM solution
n x λ
(can bypass
CSG)
1 - 2G is supported on the same base station as 4G (SRAN/Multi-RAT)2 - Includes BSC for 2G, RNC for 3G and IP Sec GW for 2G, 4G and 5G
PRTC
sync source
EEEE----BandBandBandBand
British Telecommunications plc 2018
5G within a multi-RAT network deployment - DRAN scenario
22
3G3G3G3G
4G4G4G4G1111
5G5G5G5G
CSGCSGCSGCSGOSAOSAOSAOSA
----FCFCFCFC
OSAOSAOSAOSA
----FCFCFCFC
21C21C21C21C
MSEMSEMSEMSE
DDDD
WWWW
DDDD
MMMM
DDDD
WWWW
DDDD
MMMM
21C21C21C21C
MSEMSEMSEMSE
Mobile Mobile Mobile Mobile
core core core core
networksnetworksnetworksnetworks2222
21C IP/MPLS network
(P routers not illustrated)
Openreach Point to point
DWDM solution
n x λ
(can bypass
CSG)
1 - 2G is supported on the same base station as 4G (SRAN/Multi-RAT)2 - Includes BSC for 2G, RNC for 3G and IP Sec GW for 2G, 4G and 5G
PRTC
sync source
EEEE----BandBandBandBand
E-band link(s) could connect directly
to a wavelength on OSA-FC product
British Telecommunications plc 2018
5G within a multi-RAT network deployment - Edge enabled
23
3G3G3G3G
4G4G4G4G1111
5G5G5G5G
CSGCSGCSGCSGOSAOSAOSAOSA
----FCFCFCFC
OSAOSAOSAOSA
----FCFCFCFC
21C21C21C21C
MSEMSEMSEMSE
DDDD
WWWW
DDDD
MMMM
DDDD
WWWW
DDDD
MMMM
21C21C21C21C
MSEMSEMSEMSE
Mobile Mobile Mobile Mobile
core core core core
networksnetworksnetworksnetworks2222
21C IP/MPLS network
(P routers not illustrated)
Openreach Point to point
DWDM solution
n x λ
(can bypass
CSG)
1 - 2G is supported on the same base station as 4G (SRAN/Multi-RAT)2 - Includes BSC for 2G, RNC for 3G and IP Sec GW for 2G, 4G and 5G3 - Enables RAN functional decomposition, distributed UPF and service platforms
PRTC
sync source
EEEE----BandBandBandBand
E-band link(s) could connect directly
to a wavelength on OSA-FC product
5G Edge Cloud5G Edge Cloud5G Edge Cloud5G Edge Cloud3333
British Telecommunications plc 2018
Network densification - a three phased approach
1. Base connectivity
solution, mainly fibre
2. Wireless (+ some
fibre) extension from
base connectivity
solution
3. 26 GHz small cells
with self-backhaul/in-
band backhaul
British Telecommunications plc 2018
Summary
• 5G will support:
• enhanced Mobile Broadband (eMBB)
• Ultra-Reliable & Low Latency Communications (URLLC)
• massive Machine Type Communications (mMTC), use cases
• 5G will rely on LTE (R15 eLTE) to support device connectivity (radio and EPC+)
• EN-DC enables maximum performance for initial eMBB services
• RAN and Core networks offer flexible functional decomposition and placement of
network elements (increased use of software and network cloud)
• Network slicing enables secure virtual private networks with guaranteed SLAs
• URLLC is an overlay and requirements will vary based on use cases
• Initial MTC use cases will be addressed by NB-IoT (4G) and evolve to 5G
• 5G Network architecture overview: https://www.academia.edu/36284890/5G_Network_Architecture
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