5G無線通信エコシステムの世界市場:技術、アプリケーション、産業、戦略、市場予測

調査会社Signals and Systems Telecom社が発行したリサーチレポート(データ管理コード:DATA70609098)
◆英語タイトル:The 5G Wireless Ecosystem: 2017 – 2030 – Technologies, Applications, Verticals, Strategies & Forecasts
◆発行会社/調査会社:Signals and Systems Telecom
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◆発行日:2017年3月
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*** レポート概要(サマリー)***

1 Chapter 1: Introduction1.1 Executive Summary 1.2 Topics Covered 1.3 Forecast Segmentation 1.4 Key Questions […]

*** レポート目次(コンテンツ)***

1 Chapter 1: Introduction1.1 Executive Summary
1.2 Topics Covered
1.3 Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies & Organizations Mentioned

2 Chapter 2: The Evolving 5G Ecosystem
2.1 What is 5G?
2.2 High-Level Architecture of 5G Networks
2.2.1 5G NR (New Radio) Access Network
2.2.2 NextGen (Next Generation) Core Network
2.3 5G Performance Requirements
2.3.1 Data Volume
2.3.2 Data Rate
2.3.3 Bandwidth
2.3.4 Spectral Efficiency
2.3.5 Response Time & Latency
2.3.6 Connection Density
2.3.7 Reliability
2.3.8 Mobility
2.3.9 Availability & Coverage
2.3.10 Energy Efficiency
2.4 5G Market Drivers
2.4.1 Why the Need for a 5G Standard?
2.4.2 Improving Spectrum Utilization
2.4.3 Advances in Key Enabling Technologies
2.4.4 Gigabit Wireless Connectivity: Supporting Future Services
2.4.5 Extreme Device Densities with the IoT (Internet of Things)
2.4.6 Moving Towards a Flatter Network Architecture
2.4.7 Role of Vertical Sectors & the 4th Industrial Revolution
2.5 Challenges & Inhibitors to 5G
2.5.1 Standardization Challenges: Too Many Stakeholders
2.5.2 Spectrum Regulation & Complexities
2.5.3 Massive MIMO, Beamforming & Antenna Technology Issues
2.5.4 Higher Frequencies Mean New Infrastructure
2.5.5 Complex Performance Requirements
2.5.6 Energy Efficiency & Technology Scaling

3 Chapter 3: 5G Usage Scenarios, Applications & Vertical Markets
3.1 Usage Scenarios
3.1.1 eMBB (Enhanced Mobile Broadband)
3.1.2 URLCC (Ultra-Reliable and Low Latency Communications)
3.1.3 mMTC (Massive Machine-Type Communications)
3.2 Key Applications & Vertical Markets
3.2.1 Consumer & Multi-Sector Applications
3.2.1.1 FWA (Fixed Wireless Access)
3.2.1.2 TV & Media Delivery
3.2.1.3 3D Imaging & Holograms
3.2.1.4 Virtual Presence
3.2.1.5 AR (Augmented Reality)
3.2.1.6 VR (Augmented Reality)
3.2.1.7 Real-Time Gaming
3.2.1.8 Tactile Internet
3.2.1.9 Mobile Cloud Services
3.2.1.10 5G Enabled Robotics
3.2.1.11 Connected Drones
3.2.1.12 Smart & Connected Homes
3.2.1.13 Connectivity for Smart Wearables
3.2.1.14 Conventional Mobile Broadband & Other Applications
3.2.2 Healthcare
3.2.2.1 Telemedicine
3.2.2.2 Bio-Connectivity: Enabling Telecare
3.2.2.3 Remote Surgery & Other Applications
3.2.3 Automotive & Transportation
3.2.3.1 Connected Cars: Infotainment, Navigation & Other Services
3.2.3.2 C-V2X (Cellular Vehicle-to-Everything) Communications
3.2.3.3 Autonomous Driving
3.2.3.4 Intelligent Transportation
3.2.3.5 Connectivity for High-Speed Railway, Aerial & Maritime Environments
3.2.4 Public Safety & Critical Communications
3.2.4.1 MCPTT (Mission-Critical Push-to-Talk)
3.2.4.2 Off-Network Secure Communications
3.2.4.3 Situational Awareness
3.2.4.4 Disaster Relief & Other Applications
3.2.5 Industrial Automation
3.2.5.1 5G Enabled Smart Factories
3.2.5.2 Machine Vision
3.2.5.3 Extending the Factory Floor To the Cloud
3.2.5.4 Real-Time Assistance & Other Applications
3.2.6 Other Vertical Sector Applications
3.2.6.1 Agriculture
3.2.6.2 Asset Management & Logistics
3.2.6.3 Construction
3.2.6.4 Education
3.2.6.5 Energy, Utilities & Smart Grids
3.2.6.6 Fitness & Sports
3.2.6.7 Retail, Advertising & Vending
3.2.6.8 Smart Cities & Other Sectors

4 Chapter 4: Enabling Technologies for 5G
4.1 Key Technologies & Concepts
4.1.1 Flexible Air Interface Design
4.1.1.1 Frame Structure
4.1.1.2 Multiple Numerologies
4.1.1.3 Other Aspects
4.1.2 5G Waveform Candidates
4.1.2.1 CP-OFDM (OFDM with Cyclic Prefix)
4.1.2.2 CP-OFDM with WOLA (Weighted Overlap and Add)
4.1.2.3 FCP-OFDM (Flexible CP-OFDM)
4.1.2.4 F-OFDM (Filtered OFDM)
4.1.2.5 BF-OFDM (Block Filtered OFDM)
4.1.2.6 FBMC (Filter Bank Multi-Carrier)/FB-OFDM (Filter Bank OFDM)
4.1.2.7 UFMC (Universal Filtered Multi-Carrier)/UF-OFDM (Universal Filtered OFDM)
4.1.2.8 GFDM (Generalized Frequency Division Multiplexing)
4.1.2.9 SC-FDM (Single Carrier FDM)/DFT-S OFDM (Discrete Fourier Transform-Spread OFDM)
4.1.2.10 Zero-Tail SC-FDM/DFT-S OFDM
4.1.2.11 SC-FDE (Single-Carrier Frequency Domain Equalization)
4.1.2.12 Other Options
4.1.3 Modulation Schemes
4.1.3.1 Initial Baseline for 5G NR
4.1.3.2 Going Beyond 256-QAM: Higher Order Modulations
4.1.3.3 Other Advanced Modulation Schemes
4.1.4 Multiple Access Schemes
4.1.4.1 OFDMA (Orthogonal Frequency Division Multiple Access)
4.1.4.2 SC-FDMA (Single-Carrier Frequency Division Multiple Access)
4.1.4.3 SDMA (Spatial Division Multiple Access)
4.1.4.4 Power Domain NOMA (Non-Orthogonal Multiple Access)
4.1.4.5 Code Domain Techniques
4.1.4.5.1 MUSA (Multi-User Shared Access)
4.1.4.5.2 RSMA (Resource Spread Multiple Access)
4.1.4.5.3 LSSA (Low Code Rate and Signature Based Shared Access)
4.1.4.5.4 NOCA (Non-Orthogonal Coded Access)
4.1.4.5.5 NCMA (Non-Orthogonal Coded Multiple Access)
4.1.4.5.6 GOCA (Group Orthogonal Coded Access)
4.1.4.6 Hybrid-Domain & Interleaver-Based Techniques
4.1.4.6.1 SCMA (Spare Code Multiple Access)
4.1.4.6.2 PDMA (Pattern Division Multiple Access)
4.1.4.6.3 IDMA (Interleaver Division Multiple Access)
4.1.4.6.4 IGMA (Interleave-Grid Multiple Access)
4.1.4.6.5 RDMA (Repetition Division Multiple Access)
4.1.4.7 Other Methods
4.1.5 Channel Coding Schemes
4.1.5.1 LDPC (Low Density Parity Check) Coding
4.1.5.2 Polar Coding
4.1.6 Duplex Schemes
4.1.6.1 Dynamic TDD for Higher Frequencies
4.1.6.2 FDD and FDP (Flexible Duplexing on Paired Spectrum)
4.1.6.3 Full Duplex
4.1.7 Centimeter & Millimeter Wave Radio Access
4.1.8 Advanced Antenna Technologies
4.1.8.1 Massive MIMO & MU-MIMO
4.1.8.2 Phased Array Antennas
4.1.8.3 Beamforming & Beam Tracking
4.1.9 D2D (Device-to-Device) Connectivity & Communication
4.1.10 Self-Backhauling & Mesh Networking
4.1.11 Spectrum Sharing & Aggregation
4.1.11.1 Complex Carrier Aggregation Schemes
4.1.11.2 LSA (Licensed Shared Access): Two-Tiered Sharing
4.1.11.3 SAS (Spectrum Access System): Three-Tiered Sharing
4.1.11.4 LAA (License Assisted Access): Licensed & Unlicensed Spectrum Aggregation
4.1.11.5 New Mechanisms for 60 GHz Unlicensed Spectrum Sharing
4.1.11.6 MulteFire
4.1.11.7 Cognitive Radio & Spectrum Sensing
4.1.12 Multi-Site & Multi-RAN Connectivity
4.1.12.1 Dual-Connectivity with LTE
4.1.12.2 Interoperability with Wi-Fi & Other Networks
4.1.12.3 Multi-Site Connectivity & User Centric Cell Access
4.1.13 Control and User Plane Separation
4.1.14 Network Slicing
4.1.14.1 RAN Slicing
4.1.14.2 Core Network Slicing
4.1.14.3 End-to-End Network Slicing
4.1.15 Service Based Architecture
4.1.16 Network Security & Privacy Enhancements
4.2 Complementary Technologies
4.2.1 NFV & SDN
4.2.2 Cloud Computing & Hyperscale Data Centers
4.2.3 DevOps & Other IT Concepts
4.2.4 Big Data & Analytics
4.2.5 UDNs (Ultra Dense Networks) & HetNets
4.2.6 RAN Centralization & Functional Splitting
4.2.6.1 C-RAN (Centralized RAN)
4.2.6.2 RAN Functional Split Options
4.2.7 Cloud RAN
4.2.8 MEC (Multi-Access Edge Computing)
4.2.9 Wireline Fiber Infrastructure
4.2.9.1 Impact of 5G Rollouts on the Fiber Industry
4.2.9.2 Delivering Tbps Data Rates
4.2.9.3 Current Investment Trends
4.2.9.4 Role of Other Wireline Technologies
4.2.10 VLC (Visible Light Communication) & Li-Fi (Light Fidelity)
4.2.11 Satellites, Drones & Balloons
4.2.11.1 Satellite Integration for 5G Access & Transport Networking
4.2.11.2 Low-Earth Orbit Satellites for Gigabit Speeds: Existing Investments
4.2.11.3 Drones & Balloons for Coverage Extension
4.2.11.4 Interest from Mobile Operators

5 Chapter 5: 5G Investments & Future Forecast
5.1 How Much is Being Invested in 5G R&D?
5.2 R&D Investments by Technology
5.2.1 New Air Interface & Millimeter Wave Radio Access
5.2.2 MIMO, Beamforming & Advanced Antenna Technologies
5.2.3 Spectrum Sharing, Aggregation & Interference Management
5.2.4 Virtualization & Cloud RAN
5.2.5 Network Slicing & Other Technologies
5.3 Pre-Standards 5G Network Investments
5.3.1 Segmentation by Submarket
5.3.2 Base Stations
5.3.3 User Equipment
5.3.4 Transport Networking & Other Investments
5.4 Global Outlook for Standardized 5G Infrastructure
5.4.1 Segmentation by Submarket
5.4.2 5G NR
5.4.2.1 Distributed Macrocell Base Stations
5.4.2.2 Small Cells
5.4.2.3 RRHs (Remote Radio Heads)
5.4.2.4 C-RAN BBUs (Baseband Units)
5.4.3 NextGen Core Network
5.4.4 Fronthaul & Backhaul Networking
5.4.5 Segmentation by Region
5.5 Global Outlook for Standardized 5G User Equipment
5.5.1 Segmentation by Form Factor
5.5.2 Handsets
5.5.3 Tablets
5.5.4 Embedded IoT Modules
5.5.5 USB Dongles
5.5.6 Routers
5.5.7 Segmentation by Region
5.6 Global Outlook for 5G Operator Services
5.6.1 Subscriptions
5.6.2 Service Revenue
5.6.3 Regional Segmentation
5.7 Asia Pacific
5.7.1 Infrastructure
5.7.2 User Equipment
5.7.3 Subscriptions
5.7.4 Service Revenue
5.8 Eastern Europe
5.8.1 Infrastructure
5.8.2 User Equipment
5.8.3 Subscriptions
5.8.4 Service Revenue
5.9 Latin & Central America
5.9.1 Infrastructure
5.9.2 User Equipment
5.9.3 Subscriptions
5.9.4 Service Revenue
5.10 Middle East & Africa
5.10.1 Infrastructure
5.10.2 User Equipment
5.10.3 Subscriptions
5.10.4 Service Revenue
5.11 North America
5.11.1 Infrastructure
5.11.2 User Equipment
5.11.3 Subscriptions
5.11.4 Service Revenue
5.12 Western Europe
5.12.1 Infrastructure
5.12.2 User Equipment
5.12.3 Subscriptions
5.12.4 Service Revenue

6 Chapter 6: Mobile Operator Case Studies & Commitments
6.1.1 Mobile Operator Case Studies
6.1.1.1 AT&T
6.1.1.2 BT Group
6.1.1.3 China Mobile
6.1.1.4 DT (Deutsche Telekom)
6.1.1.5 KT Corporation
6.1.1.6 NTT DoCoMo
6.1.1.7 SK Telecom
6.1.1.8 Telefónica
6.1.1.9 Verizon Communications
6.1.1.10 Vodafone Group
6.2 Review of Mobile Operator 5G Commitments
6.2.1 Asia Pacific
6.2.1.1 Australia
6.2.1.2 China
6.2.1.3 Hong Kong
6.2.1.4 India
6.2.1.5 Japan
6.2.1.6 Philippines
6.2.1.7 Singapore
6.2.1.8 South Korea
6.2.1.9 Taiwan
6.2.1.10 Thailand
6.2.2 Europe
6.2.2.1 Belgium
6.2.2.2 Finland
6.2.2.3 France
6.2.2.4 Germany
6.2.2.5 Italy
6.2.2.6 Netherlands
6.2.2.7 Russia
6.2.2.8 Sweden
6.2.2.9 Switzerland
6.2.2.10 Turkey
6.2.2.11 United Kingdom
6.2.2.12 Other Countries
6.2.3 Latin & Central America
6.2.3.1 Brazil
6.2.3.2 Mexico
6.2.4 Middle East & Africa
6.2.4.1 Bahrain
6.2.4.2 Kuwait
6.2.4.3 Other Countries
6.2.4.4 Qatar
6.2.4.5 Saudi Arabia
6.2.4.6 UAE
6.2.5 North America
6.2.5.1 Canada
6.2.5.2 United States

7 Chapter 7: Spectrum for 5G Networks
7.1 Potential Frequency Bands for 5G
7.1.1 Sub-1 GHz Bands
7.1.2 1-6 GHz Bands
7.1.2.1 3.4 GHz
7.1.2.2 3.5 GHz
7.1.2.3 4.5 GHz
7.1.2.4 5 GHz
7.1.3 Bands Above 6 GHz
7.1.3.1 15 GHz
7.1.3.2 24-30 GHz
7.1.3.3 30-60 GHz
7.1.3.4 E-Band (60-90 GHz)
7.1.3.5 Higher Bands
7.2 Status of 5G Spectrum Allocation
7.3 Asia Pacific
7.3.1 Australia
7.3.2 China
7.3.3 Japan
7.3.4 Singapore
7.3.5 South Korea
7.3.6 Taiwan
7.3.7 Other Countries
7.4 Europe
7.4.1 European Commission & CEPT Recommendations
7.4.2 National Initiatives
7.5 Latin & Central America
7.5.1 CITEL Recommendations
7.5.2 National Initiatives
7.6 Middle East & Africa
7.6.1 GCC Countries
7.6.2 Africa & Other Countries
7.7 North America
7.7.1 Canada
7.7.2 United States

8 Chapter 8: 5G Standardization, Development & Research Initiatives
8.1 3GPP (Third Generation Partnership Project)
8.1.1 Phased Standardization Approach
8.1.1.1 Phase 1: Release 15
8.1.1.2 Phase 2: Release 16
8.1.1.3 Enhancements to Address 5G Objectives in Earlier Releases
8.1.2 Key Aspects of 5G Standardization
8.1.2.1 5G NR Access Network
8.1.2.2 Support for Other Access Networks
8.1.2.3 NextGen System Architecture
8.1.2.4 Deployment Modes: Non-Standalone vs. Standalone Operation
8.2 5G Americas
8.2.1 5G Advocacy Efforts
8.3 5GAA (5G Automotive Association)
8.3.1 Advocacy for 5G & Cellular V2X Technology
8.3.2 Other Alliances in the Automotive Sector
8.4 Broadband Forum
8.4.1 Broadband 20/20 Vision: Convergence of 5G Mobile & Fixed Networks
8.5 CableLabs
8.5.1 Research on High Capacity Millimeter Wave Small Cells
8.5.2 Other Work Relevant to 5G
8.6 DSA (Dynamic Spectrum Alliance)
8.6.1 Dynamic Spectrum Sharing for 5G
8.7 ETSI (European Telecommunications Standards Institute)
8.7.1 ISGs (Industry Specification Groups) for 5G Enabling Technologies
8.7.1.1 mWT ISG (Millimeter Wave Transmission ISG)
8.7.1.2 ISG NFV (ISG for Network Functions Virtualization)
8.7.1.3 OSG OSM (Open Source Group for Open Source MANO)
8.7.1.4 ISG MEC (ISG for Multi Access Edge Computing)
8.7.1.5 ISG NGP (ISG for Next Generation Protocols)
8.7.1.6 ISG MBC (ISG for Mobile/Broadcast Convergence)
8.7.2 Other Work
8.8 GSMA
8.8.1 5G Program & Spectrum Policy
8.9 GTI
8.9.1 5G Innovation Program
8.10 IEEE (Institute of Electrical and Electronics Engineers)
8.10.1 IEEE Future Directions 5G Initiative
8.10.2 Contribution to 5G Standards Development
8.11 IETF (Internet Engineering Task Force)
8.11.1 Contribution to 5G NextGen Core Standards
8.11.1.1 5Gangip (5G Aspects of Next Generation Internet Protocols) Special Group
8.11.1.2 Proposed NMLRG (Network Machine Learning Research Group)
8.11.1.3 Internet-Draft on Network Slicing
8.11.1.4 Other Work Relevant to 5G
8.12 ITU (International Telecommunication Union)
8.12.1 IMT-2020 Family of Standards
8.12.2 WP 5D (Working Party 5D)
8.12.3 FG IMT-2020 (Focus Group on IMT-2020)
8.12.4 Spectrum Allocation
8.13 NGMN (Next Generation Mobile Networks) Alliance
8.13.1 5G Work Program
8.13.1.1 Ecosystem Building & Interaction
8.13.1.2 Guidance to SDOs & the Wider Industry
8.13.1.3 Evaluation of Test & PoC Results
8.13.2 New Work-Items
8.13.2.1 5G Trial & Testing Initiative
8.13.2.2 End-to-End Architecture
8.13.2.3 Vehicle-to-X
8.14 OCP (Open Compute Project) Foundation
8.14.1 Telco Project
8.15 ONF (Open Networking Foundation) & ON.Lab (Open Networking Lab)
8.15.1 CORD (Central Office Re-Architected as a Datacenter)
8.15.2 M-CORD (M-Central Office Re-Architected as a Datacenter)
8.16 SIMalliance
8.16.1 5GWG (5G Working Group): Recommendations for 5G Security
8.17 Small Cell Forum
8.17.1 Mapping 5G Requirements for Small Cells
8.18 TIP (Telecom Infra Project)
8.18.1 OpenCellular Access Platform
8.18.2 Open Optical Packet Transport
8.18.3 Mobile Core Simplification
8.19 TM Forum
8.19.1 5G Working Group
8.20 Wi-Fi Alliance
8.20.1 Positioning WiGig as a 5G Technology
8.20.2 Other Work Relevant to 5G
8.21 WBA (Wireless Broadband Alliance)
8.21.1 Advocacy Efforts for 5G Convergence with Wi-Fi
8.22 WinnForum (Wireless Innovation Forum)
8.22.1 Spectrum Sharing Specifications for LTE & 5G Networks
8.23 WWRF (World Wireless Research Forum)
8.23.1 New WGs (Working Groups) for 5G
8.23.1.1 WG High Frequency Technologies
8.23.1.2 WG 5G e/m-Health and Wearables
8.23.1.3 WG The Connected Car
8.23.1.4 WG End-to-End Network Slicing
8.24 xRAN Consortium
8.24.1 Standardization for Software-Based RAN
8.25 Other Collaborative & Standardization Organizations
8.26 European Initiatives
8.26.1 5G PPP (5G Infrastructure Public Private Partnership)
8.26.1.1 5G IA (5G Infrastructure Association)
8.26.1.2 Key Working Groups
8.26.1.3 Major Research Projects
8.26.2 European Commission’s 5G Roadmap
8.26.2.1 Phase 1: The Future of 5G Network Architecture
8.26.2.2 Phase 2: Demonstrations & Experiments
8.26.2.3 Phase 3: Integration of End-to-End 5G experimental network infrastructure
8.26.3 5G Manifesto
8.26.4 5G Action Plan
8.27 National Initiatives
8.27.1 United States
8.27.1.1 NSF (National Science Foundation)
8.27.1.2 NIST (National Institute of Standards and Technology)
8.27.1.3 ATIS (Alliance for Telecommunications Industry Solutions)
8.27.1.4 TIA (Telecommunications Industry Association)
8.27.2 South Korea
8.27.2.1 5G Forum
8.27.2.2 ETRI (Electronics and Telecommunications Research)
8.27.2.3 TTA (Telecommunications Technology Association of Korea)
8.27.3 Japan
8.27.3.1 ARIB (Association of Radio Industries and Businesses)
8.27.3.2 TTC (Telecommunication Technology Committee)
8.27.3.3 5GMF (Fifth Generation Mobile Communications Promotion Forum)
8.27.4 China
8.27.4.1 IMT-2020 5G Promotion Group
8.27.4.2 CCSA (China Communications Standards Association)
8.27.4.3 863 Research Program
8.27.4.4 FuTURE Mobile Communication Forum
8.27.5 Taiwan
8.27.5.1 ITRI (Industrial Technology Research Institute)
8.27.5.2 TAICS (Taiwan Association of Information and Communication Standards)
8.27.6 Turkey
8.27.6.1 ICTA (Information and Communication Technologies Authority)
8.27.6.2 5GTR (Turkish 5G Forum)
8.27.7 Malaysia
8.27.7.1 MTSFB (Malaysian Technical Standards Forum Bhd)
8.27.7.2 Malaysia 5G Committee
8.27.8 Indonesia
8.27.8.1 i5GF (Indonesia 5G Forum)
8.27.9 India
8.27.9.1 TSDSI (Telecommunications Standards Development Society India)
8.27.9.2 GISFI (Global ICT Standardization Forum for India)
8.27.10 Russia
8.27.10.1 5GRUS
8.28 Mobile Operator Led Initiatives & Innovation Labs
8.28.1 Pre-Standards Deployment Initiatives
8.28.1.1 5G TSA (5G Open Trial Specification Alliance)
8.28.1.2 5GTF (5G Technical Forum), Verizon Communications
8.28.1.3 5G-SIG (Special Interest Group), KT Corporation
8.28.1.4 5G-DF (5G Development Forum), KT Corporation
8.28.2 Innovation Labs
8.28.2.1 5G Innovation Center, China Mobile
8.28.2.2 5G:Haus, DT (Deutsche Telekom)
8.28.2.3 5TONIC, Telefónica
8.28.2.4 Others
8.29 Academic & Research Institute Initiatives
8.29.1 5G Lab Germany at TU Dresden
8.29.2 5G Playground, Fraunhofer FOKUS
8.29.3 5GIC (5G Innovation Center, University of Surrey)
8.29.4 5GTNF (5G Test Network Finland), University of Oulu
8.29.5 Hiroshima University
8.29.6 NYU WIRELESS (New York University)
8.29.7 OSA (OpenAirInterface Software Alliance), EURECOM
8.29.8 Tokyo Institute of Technology
8.29.9 UC Berkeley (University of California, Berkeley)
8.29.10 USC (University of Southern California) Viterbi School of Engineering
8.29.11 UT Austin (University of Texas at Austin)
8.29.12 WINLAB (Wireless Information Network Laboratory), Rutgers University

9 Chapter 9: Vendor Demonstrations, Commitments & Strategies
9.1 Argela
9.1.1 5G Strategy
9.1.2 Demonstrations & Trial Commitments
9.2 Cisco Systems
9.2.1 5G Strategy
9.2.2 Demonstrations & Trial Commitments
9.3 Cohere Technologies
9.3.1 5G Strategy
9.3.2 Demonstrations & Trial Commitments
9.4 Ericsson
9.4.1 5G Strategy
9.4.2 Demonstrations & Trial Commitments
9.5 Fujitsu
9.5.1 5G Strategy
9.5.2 Demonstrations & Trial Commitments
9.6 Google
9.6.1 5G Strategy
9.6.2 Demonstrations & Trial Commitments
9.7 Huawei
9.7.1 5G Strategy
9.7.2 Demonstrations & Trial Commitments
9.8 Intel Corporation
9.8.1 5G Strategy
9.8.2 Demonstrations & Trial Commitments
9.9 InterDigital
9.9.1 5G Strategy
9.9.2 Demonstrations & Trial Commitments
9.10 Juniper Networks
9.10.1 5G Strategy
9.10.2 Demonstrations & Trial Commitments
9.11 Keysight Technologies
9.11.1 5G Strategy
9.11.2 Demonstrations & Trial Commitments
9.12 Kumu Networks
9.12.1 5G Strategy
9.12.2 Demonstrations & Trial Commitments
9.13 LG Electronics
9.13.1 5G Strategy
9.13.2 Demonstrations & Trial Commitments
9.14 Mitsubishi Electric
9.14.1 5G Strategy
9.14.2 Demonstrations & Trial Commitments
9.15 NEC Corporation
9.15.1 5G Strategy
9.15.2 Demonstrations & Trial Commitments
9.16 NI (National Instruments)
9.16.1 5G Strategy
9.16.2 Demonstrations & Trial Commitments
9.17 Nokia Networks
9.17.1 5G Strategy
9.17.2 Demonstrations & Trial Commitments
9.18 Panasonic Corporation
9.18.1 5G Strategy
9.18.2 Demonstrations & Trial Commitments
9.19 Qorvo
9.19.1 5G Strategy
9.19.2 Demonstrations & Trial Commitments
9.20 Qualcomm
9.20.1 5G Strategy
9.20.2 Demonstrations & Trial Commitments
9.21 Rohde & Schwarz
9.21.1 5G Strategy
9.21.2 Demonstrations & Trial Commitments
9.22 Samsung Electronics
9.22.1 5G Strategy
9.22.2 Demonstrations & Trial Commitments
9.23 SiBEAM
9.23.1 5G Strategy
9.23.2 Demonstrations & Trial Commitments
9.24 ZTE
9.24.1 5G Strategy
9.24.2 Demonstrations & Trial Commitments



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