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5G Market Potential and Status Update Painel Telebrasil 2018 IEEE 5G Summit Tiago Machado Ericsson Brazil 2018-05-22 Ericsson Internal | 2018-03-12 The Generations: from Voice to IoT Ericsson Internal | 2018-03-12 New revenue streams


  1. 5G Market Potential and Status Update Painel Telebrasil 2018 IEEE 5G Summit Tiago Machado Ericsson Brazil 2018-05-22 Ericsson Internal | 2018-03-12

  2. The Generations: from Voice to IoT Ericsson Internal | 2018-03-12

  3. New revenue streams from 5G Ericsson Internal | 2018-03-12

  4. New revenue streams from 5G Ericsson Internal | 2018-03-12

  5. 5G evolution goes beyond Radio Access Ericsson Internal | 2018-03-12

  6. 5G high level time plan Ericsson Internal | 2018-03-12

  7. 5G in Brazil

  8. Braziliancities Motivationfor Rural Coverage Populational density inhabitants/Km 2 [2017] IBGE and EMPRAPA (2017) Brasil Centro Oeste Nordeste Norte Sudeste Sul Cities 5.570 8,38% 32,21% 8,08% 29,95% 21,38% Demographic Density 24,4 hab/km² 9,88 hab/km² 36,84 hab/km² 4,65 hab/km² 94,04 hab/km² 52,58 hab/km² Ericsson Internal | 2018-03-12

  9. 5G RANGE Overview 5G-RANGE – 5G-R emote Area A ccess N etwork for 5 Th GE neration EU-Brazil Joint Call - H2020-EUB-2017 List of Participants EU Partners Universidad Carlos III de Madrid (Spain) - Coordinator Technische Universität Dresden (Germany) University of Oulu (Finland) Telefónica I+D (Spain) Brazilian Partners Inatel (Instituto Nacional de Telecomunicações) CPqD (Centro de Pesquisa e Desenvolvimento em Telecomunicações) USP (Universidade de São Paulo) UFC (Universidade Federal do Ceará) UnB (Universidade de Brasília) - Coordinator Ericsson Brazil Ericsson Internal | 2018-03-12

  10. 5G RANGE Overview — Context — Internet Penetration — Limited availability of Internet Broadband access in remote areas — Demand not met with current technologies and products — Low population density 10% — Geographical barriers — Large distances — Usage of licensed bands — Objectives — Design, develop, implement and validate the mechanisms to enable the 5G network to provide an economically effective solution for Internet access for remote areas: — Use of cognitive radio approach employing both licensed and unlicensed frequencies — New waveform in order to provide the desirable dynamic and fragmented spectrum allocation. — Cell radius above 50 km (>100Mbps at the edge) — Novel contributions on 5G standards in support of global industry consensus e.g. through 80% submission of joint contributions in these fora by EU and Brazilian players Ericsson Internal | 2018-03-12

  11. High CapacityTransport Optical backhaul [2016] ANATEL 2016 Cities without Optical Backhaul 181 Midwest Northeast 1.095 North 250 Southeast 651 South 168 In blue: cities with Optical Backhaul In blank: cities without Optical Backhaul Ericsson Internal | 2018-03-12

  12. Infrastructureanddigitalizationare keyenablers — Infrastructure enablers Spectrum Availability Spectrum Spectrum Caps Pricing Site Viability Ericsson Internal | 2018-03-12

  13. Infrastructureanddigitalizationare keyenablers — Digitalization enablers — Infrastructure enablers Spectrum Cyber Availability security Spectrum Spectrum Industrial Network Caps Pricing Policy Neutrality Site Data Viability Privacy Ericsson Internal | 2018-03-12

  14. Spectrum for 5G introduction Ericsson Internal | 2018-03-12

  15. Three layers of spectrum are needed: Low, Mid, High High Bands 6GHz Super data layer Mid Bands 1-6GHz Coverage & Capacity Low Bands < 1GHz Coverage Layer Ericsson Internal | 2017-12-19

  16. Lower bands enable coverage BASE High Bands 6GHz Potential reuse of existing infrastructure Super data layer Global Rural coverage Roaming APPLICATIONS Mid Bands 1-6GHz Coverage & Capacity FWA Logistics Rural IoT eMBB Low Bands < 1GHz POTENTIAL 100 Coverage Layer Available bandwidth in 600MHz in Brazil MHz Ericsson Internal | 2017-12-19

  17. Mid-bands have the balance of Coverage x Capacity BASE High Bands 6GHz Potential reuse of existing infrastructure Super data layer Global Urban coverage Roaming APPLICATIONS Mid Bands 1-6GHz Coverage & Capacity Smart Cities eMBB IoT Industry 4.0 Low Bands < 1GHz POTENTIAL 500 Available bandwidth in Coverage Layer 2.3 + 3.5GHz in Brazil, considering LSA in C-Band MHz Ericsson Internal | 2017-12-19

  18. mmWavewill add 10x more capacity BASE High Bands 6GHz Indoor, urban, private, local, short Super data layer range, multi-layer Global Roaming APPLICATIONS Mid Bands 1-6GHz Coverage & Capacity Remote Self Driving VR/AR Robots Medicine Cars Low Bands < 1GHz POTENTIAL >10 Available bandwidth in Coverage Layer millimeter Waves above 24GHz up to E-Band in Brazil GHz Ericsson Internal | 2017-12-19

  19. 3.5GHz isavailableworldwide: theprime 5G band 100MHz or less 200MHz 300MHz 400MHz Ericsson Internal | 2017-12-19

  20. Millimetric bands under study at ITU WRC-19 From 24.25 to 86GHz, a total of 33GHz is targeted allocations to the mobile service on a primary basis may require additional allocations to mobile 27.5 33.4 40.5 43.5 47 50.2 52.6 76.0 31.8 37 42.5 45.5 47.2 50.4 66.0 81.0 24.25 86.0 Ericsson Internal | 2017-12-19

  21. Millimetric bands under study at ITU WRC-19 From 24.25 to 86GHz, a total of 33GHz is targeted allocations to the mobile service on a primary basis may require additional allocations to mobile 27.5 33.4 40.5 43.5 47 50.2 52.6 76.0 31.8 37 42.5 45.5 47.2 50.4 66.0 81.0 24.25 86.0 24GHz 1 24.25-27.5 Global Priorities Ericsson Internal | 2017-12-19

  22. Millimetric bands under study at ITU WRC-19 From 24.25 to 86GHz, a total of 33GHz is targeted allocations to the mobile service on a primary basis may require additional allocations to mobile 27.5 33.4 40.5 43.5 47 50.2 52.6 76.0 31.8 37 42.5 45.5 47.2 50.4 66.0 81.0 24.25 86.0 24GHz 42GHz 1 2 24.25-27.5 40.5-43.5 Global Priorities Ericsson Internal | 2017-12-19

  23. Millimetric bands under study at ITU WRC-19 From 24.25 to 86GHz, a total of 33GHz is targeted allocations to the mobile service on a primary basis may require additional allocations to mobile 27.5 33.4 40.5 43.5 47 50.2 52.6 76.0 31.8 37 42.5 45.5 47.2 50.4 66.0 81.0 24.25 86.0 24GHz 42GHz 70GHz 1 3 2 24.25-27.5 40.5-43.5 66-76 Global Priorities Ericsson Internal | 2017-12-19

  24. Millimetric bands under study at ITU WRC-19 From 24.25 to 86GHz, a total of 33GHz is targeted allocations to the mobile service on a primary basis may require additional allocations to mobile 27.5 33.4 40.5 43.5 47 50.2 52.6 76.0 31.8 37 42.5 45.5 47.2 50.4 66.0 81.0 24.25 86.0 24GHz 42GHz 70GHz 1 3 2 24.25-27.5 40.5-43.5 66-76 48GHz 4 45.5-52.6 Global Priorities Ericsson Internal | 2017-12-19

  25. Millimetric bands under study at ITU WRC-19 From 24.25 to 86GHz, a total of 33GHz is targeted allocations to the mobile service on a primary basis may require additional allocations to mobile 27.5 33.4 40.5 43.5 47 50.2 52.6 76.0 31.8 37 42.5 45.5 47.2 50.4 66.0 81.0 24.25 86.0 24GHz 42GHz 70GHz 1 3 2 24.25-27.5 40.5-43.5 66-76 32GHz 48GHz 5 4 31.8-33.4 45.5-52.6 Global Priorities Ericsson Internal | 2017-12-19

  26. Millimetric bands under study at ITU WRC-19 From 24.25 to 86GHz, a total of 33GHz is targeted allocations to the mobile service on a primary basis may require additional allocations to mobile 27.5 33.4 40.5 43.5 47 50.2 52.6 76.0 31.8 37 42.5 45.5 47.2 50.4 66.0 81.0 24.25 86.0 24GHz 42GHz 70GHz 1 3 2 24.25-27.5 40.5-43.5 66-76 32GHz 85GHz 48GHz 6 5 4 31.8-33.4 81-86 45.5-52.6 Global Priorities Ericsson Internal | 2017-12-19

  27. Digitalization Enablers: Why data privacy matters EU approach: GDPR Ongoing draft laws in Brazil — Focus on user protection — PLS 330 / 2013 — Data protection authority — PL 5276 / 2016 — Explicit consent — Limited non-EU data flows Main topics — EU Digital Single Market — Data protection authority — Personal data US approach — Sensitive data — Focus on private contracts — Anonymized data — Broader trade and competition regulation — International Data Flows — Implicit consent — Consent: explicit vs implicit — Open data flows — Identifiable vs identified user Ericsson Internal | 2017-12-19

  28. Digitalization Enablers: Why net neutrality matters Network Neutrality — Science of limited resources User demand — From homogeneity to network slicing — FCC stance versus Europe Basic — Latency over throughput Rights Business — The myth of fast lanes and Opportunity Definition Rules of Net US movement vs EU instance Neutrality Brazilian Internet Civil Framework & Decree Tech Market evolution Equilibrium 5G & IoT Ericsson Internal | 2017-12-19

  29. Digitalization Enablers: Why cyber security matters Key topics Network Security Information Security — Data localization — Critical Infrastructure Local Systems Cloud — Cyber-espionage IT Specific Industry-wide — Legal Interception — Vendor and technology vetting Data exposure Data Corruption — Security by design — IoT and 5G introduction Computers & Phones IoT Networks Access Ubiquity Preventive & Reactive Proactive measures Ericsson Internal | 2017-12-19

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