O BRASIL E O MUNDO.
ONDE ESTAMOS NO 5G?
Marco Di Costanzo
Casos de Uso e Requisitos
Recursos Críticos para o Sucesso
Como a TIM está se preparando
Enhanced
MBB
Fixed Wireless Access
FWA
5G
Casos de Uso
Remote Surgery / Interactive Medicine (Health 5.0) Autonomous Car
Industry Automation (Industry 4.0)
Mission Critical
IoT
Smart Home Smart City Wearable DevicesMassive
IoT
Mobile Cloud Computing (work & play) Virtual Reality / Augmented reality Video UHD (4K)
1 ms radio latency, 5ms E2E 99,999% E2E availability
10-20 Gbps theoretical max peak rate 100 Mbps real average user rate
5G
Requisitos
Massive IoT Mission Critical IoT Enhanced MBBFixed Wireless Access FWA
Mobility
Connectivity
Latency & Reliability
Bandwidth
High speed mobility (500 Kmh)
> 100 CPE / AP
Up to 1 Gbps UBB offer profile 10.000x more traffic
High speed mobility (250 Kmh) 1.000.000 devices / Km2
10 years battery lifetime Ultra low cost M2M
Mobility
Connectivity
Latency & Reliability
Bandwidth
Massive MIMO and Beamforming (MU-MIMO) More spectrum available (3.5GHz, mmW)
Increased spectral efficiency Distributed Cloud Core Functions (CUPS)
Shorter TTI (CP-OFDM)
Flat De-layered Transport (IPOC)
Dynamic Spectrum Sharing (DSS LTE/NR) Low band spectrum available
Dual Connectivity (DL/UL decoupling)
Zero-touch self-install indoor CPE
More spectrum available (3.5GHz, mmW) Massive MIMO and Beamforming (MU-MIMO)
Massive IoT Mission Critical IoT Enhanced MBB
Fixed Wireless Access FWA
5G
O Brasil e o mundo.
Onde estamos no 5G?
User Generated Content 360 virtual touring Immersive virtual reality
Connected Cloud Live Sports
Interactive Medicine Augmented Reality
Instant Apps
MOBILE TRAFFIC EXPLOSION
50B
GB75
%Monthly Mobile Traffic by 2021
Video Traffic in Mobile Data by 2021
FIBER-LIKE WIRELESS CONNECTION
1.6
GB6.8
GBCasos de Uso e Requisitos
Recursos Críticos para o Sucesso
Como a TIM está se preparando
2017 2018 2019 Device Deployment R15 NR PH1: NSA 2020 R17 Commercial scale …
Smartphone will be Available in 2019
R15 PH1: SA R16 NR PH2 Standard CPE FWA
Pre-Commercial Commercial 1.0CPE FWA
High bands (24 GHz – 40 GHz) New bands Mid bands II (3.5 GHz – 8 GHz) New bands Mid bands I (1 GHz – 2.6 GHz) Legacy bands Low bands (Sub – 1 GHz)
New / legacy bands
<1 km 8 km 15 km 30 km 10 MHz 20 MHz 50 MHz >100 MHz 10 ms
Cobertura Capacidade Latência
1 ms
High capacity Hotspot / Dense urban
Moderate capacity Wide area /
Outside-in coverage
Es
pectr
o
More data Capacity
(10.000x more traffic)
Coverage
2. ESPECTRO: para suportar os requisitos de Cobertura, Capacidade e Latência
Es
pectr
2. ESPECTRO: estratégia para introdução do 5G 5G on Mid bands II
Dual connectivity with 5G on mid bands
New bands
Shared Low bands Increased coverage for wide-area
New / Legacy bands
5G on High bands Increased capacity and ultra low latency
New bands
Shared Mid bands I Maximal coverage, capacity and cell edge performance
Legacy bands Dual connectivity Spectrum sharing Carrier aggregation Performance characteristics Baseline 4G Capacity and coverage
High bands (24 GHz – 40 GHz)
Mid bands II (3.5 GHz – 8 GHz)
Mid bands I (1 GHz – 2.6 GHz)
Low bands (Sub –1 GHz)
Cell edge performance Capacity/Speed Latency 2G +3G 4G 5G 4G+5G
Cell edge performance Capacity/Speed Latency
Cell edge performance Capacity/Speed Latency
Cell edge performance Capacity/Speed Latency
Cell edge performance Capacity/Speed Latency
2019 2020
100MHz or less 200MHz
300MHz 400MHz
3. SITES: regulação mais flexível para facilitar a construção de novos sites
Casos de Uso e Requisitos
Recursos Críticos para o Sucesso
Como a TIM está se preparando
FWA 3.5G/28G/39GHz 17H2 Pre-Comm. eMBB 3.5G/28G 17H2 Pre-Comm. eMBB 4.5G/28G 19 Pre-Comm. eMBB 700M/3.5G/24~26G 18~19 Pre-Comm. eMBB 3.5G/4.5G 18 Pre-Comm. 2018 2019 2020 2017 Trial Trial Comm
Trial (7 cities) Massive Deploy (100
areas) Comm. Pre-Comm Comm WTTx Comm (Q3) WTTx 2 cities trials Trial Trial Pre-Comm Trial
Trial Feature Verification Comm
5G trial city (3 areas)
5G active plan
Pre-Comm
Comm
Pre-Comm
5GMF Use Case Development
ICT with 5G will drive Japan economy
trials (11 cities)
2x Max Throughput vs. YA 43% using 3.5GHz and 31% using 28MHz
C-Band (3.5GHz)
Primary Capacity
• C-Band with Massive MIMO for capacity and coverage • UL sharing with below 3GHz for coverage and mobility
mmWave (24–40 GHz)
Complementary Capacity • Hotspot capacity
• Fixed Wireless Access
Sub-3GHz
Primary Coverage
• Coverage, mobility and connectivity • Low Latency and mMTC services
2018 2019 2020 2021 4G Evolution C-BAND Auction 5G Pilot / Pre-commercial 5G Commercial
O ESTADO DO 5G NA TIM: Testes na faixa 3.5GHz (Banda C)
Testes em campo da Faixa de 3.5GHz (verificação de convivência com a Banda C)
✓ LTE Evolution: Giga LTE
— 4x4 MIMO, 256QAM, full CA — Voice migration to VoLTE — NB-IoT / CAT-M intro in L700
✓ 5G Introduction
— Massive MIMO on 3.500 MHz and mmW — Dynamic Spectrum Sharing (DSS)
— NR+LTE Dual Connectivity (DC/NSA) — 1.800/2.100 MHz refarming to NR 2.100 MHz 1.800 MHz mmW (26GHz) Bands (MHz) 20MHz 850 MHz 12,5MHz 3.500 MHz 15MHz CS voice / MBB / Legacy M2M eMBB / FWA Critical IoT 5G Introduction eMBB / FWA GSM 3G LTE NR LTE CA NR+LTE DC NR+NR CA 700 MHz 10MHz DSS 4x4 MIMO DSS eMBB eMBB eMBB / FWA eMBB / FWA Critical IoT Giga LTE 2x2 10MHz 2.600 MHz NB-IoT / CAT-M eMBB (shared spectrum)
O ESTADO DO 5G NA TIM: a estratégia de gestão do espectro
2020 2021 2022
2019 2018
850 700 CS voice / MBB / Legacy M2M 2x2 850 NB-IoT / CAT-M 2x2 2600 1800 2100 4X4 MIMO 4X4 MIMO 4X4 MIMO 4X4 MIMO 4X4 MIMO 2x2 4x4 4x4 2x2 2x2
Strategic sites High capacity Capacity Coverage
New 5G
Giga LTE
5G speed experience
LTE expansion (minimum 2CC everywhere)
eMBB 3500 mmW Indoor M-MIMO M-MIMO 8x8 Traffic/site
850 700 CS voice / MBB / Legacy M2M 2x2 850 2x2 2600 1800 2100 4X4 MIMO 4X4 MIMO 4X4 MIMO 4X4 MIMO 4X4 MIMO 2x2 4x4 4x4 2x2 2x2 eMBB 3500 mmW Indoor M-MIMO M-MIMO 8x8 Traffic/site Scalable Macro Low TCO coverage Massive MIMO Small cells NB-IoT / CAT-M
O ESTADO DO 5G NA TIM: a estratégia de gestão do espectro
O ESTADO DO 5G NA TIM: a rede 5G Cloud Core
5G Cloud Core Network
Control & User Plane Functions virtualized in DCC (CP) and DCE (UP) Data Centers
O ESTADO DO 5G NA TIM: como a TIM está se preparando 1 2 3 4 5 5G Cloud Core Converged Access Multi Use cases
GIGA LTE
Centralization Distribution
New Spectrum Automation/Analytics/AI
Smart Fabric (SDN, IP/MPLS, Optical) NW Slices C-Plane U-Plane EPC Core Distribution/Local Apps/ Contents
Edge Site Central Site
Access Site 4G 5G 1 2 3 5
Evoluindo a rede LTE para Giga LTE (LTE-A Pro)
Expandindo a rede de Backhaul em FO
(regional&urban)
Distribuindo as funções virtualizas de User Plane nos DCE
Centralizando as
funções virtualizads de Control Plane nos DCC Validando o uso da banda 3.5GHz
CONSIDERACOES FINAIS
▪ As Redes 5G irão propiciar alcançar um outro patamar em termos de novas aplicações e serviços;
▪ O Ecossistema 5G (padrões, tecnologias, terminais, bandas) está cada vez mais robusto e o numero de pilotos e lançamentos pre-comercias aumenta constantemente ao redor do Mundo.
▪ No Brasil o fator critico de sucesso será a licitação da banda C (3.5GHz), prevista para 2H19, bem como uma regulação mais flexível que facilite a construção de novos sites e fibra ótica;
▪ A TIM está se preparando para o 5G evoluindo sua rede LTE para “Giga LTE” (LTE-A Pro) e sua rede Core para “5G Cloud Core”.