From owner-freebsd-ppc@freebsd.org Mon Jul 25 22:11:56 2016 Return-Path: Delivered-To: freebsd-ppc@mailman.ysv.freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) by mailman.ysv.freebsd.org (Postfix) with ESMTP id 4EDEABA586C for ; Mon, 25 Jul 2016 22:11:56 +0000 (UTC) (envelope-from no-reply@x124.vip.6pm-coupon.com) Received: from x124.vip.6pm-coupon.com (x124.vip.6pm-coupon.com [104.148.25.124]) by mx1.freebsd.org (Postfix) with ESMTP id 3E9141813 for ; Mon, 25 Jul 2016 22:11:55 +0000 (UTC) (envelope-from no-reply@x124.vip.6pm-coupon.com) DKIM-Signature: v=1; a=rsa-sha1; c=relaxed/relaxed; s=6pm-coupon; d=x124.vip.6pm-coupon.com; h=MIME-Version:From:To:Date:Subject:Content-Type:Content-Transfer-Encoding; i=no-reply@x124.vip.6pm-coupon.com; bh=BqECjuDWPQGdqIW68nfwVJ4Fs/A=; b=lPMS3mboSehiy/tUK2gGjZ6P/vR3pXprgIanCymtEP27Py2fAhGsMrHwov4BeKXM7RKcrADxRikr o9O6fRt2dbhy0eRl7/AstC13LVhK/HtbZ0xZQFe35MrIoW3ZfRp5sV8hVTl8H6JHfN/D5tmGPcIT L/KG+OSBv4ti4MmbDq4= DomainKey-Signature: a=rsa-sha1; c=nofws; q=dns; s=6pm-coupon; d=x124.vip.6pm-coupon.com; b=s3jipei0HuvHdsoku9KcKLu7hM9PdG33hBu4LDfnlVC+KVN3XBPRe02pCbROPNk8auRAQ7yCXrOh hCIB+Hi2M0yyrEZmbUJ0Tsj0srUZeDRFRMetYD3V/3KE4q4eV+1mwvKuLK9OiC9IUvM6cC7KXltE v+0H97AU7XYdY9fuFHw=; From: "Michael Kors" To: freebsd-ppc@freebsd.org Date: 26 Jul 2016 06:02:53 +0800 Subject: No Joke:Your special offer from Factory Direct Sale611 MIME-Version: 1.0 Content-Type: text/plain; charset="us-ascii" X-Content-Filtered-By: Mailman/MimeDel 2.1.22 X-BeenThere: freebsd-ppc@freebsd.org X-Mailman-Version: 2.1.22 Precedence: list List-Id: Porting FreeBSD to the PowerPC List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Mon, 25 Jul 2016 22:11:56 -0000 From owner-freebsd-ppc@freebsd.org Tue Jul 26 01:49:24 2016 Return-Path: Delivered-To: freebsd-ppc@mailman.ysv.freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) by mailman.ysv.freebsd.org (Postfix) with ESMTP id 09EA2BA42B7 for ; Tue, 26 Jul 2016 01:49:24 +0000 (UTC) (envelope-from andy.silva@snsreports.com) Received: from mailer238.gate85.rs.smtp.com (mailer238.gate85.rs.smtp.com [74.91.85.238]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (Client did not present a certificate) by mx1.freebsd.org (Postfix) with ESMTPS id BD52311CA for ; Tue, 26 Jul 2016 01:49:23 +0000 (UTC) (envelope-from andy.silva@snsreports.com) X-MSFBL: eyJyIjoiZnJlZWJzZC1wcGNAZnJlZWJzZC5vcmciLCJnIjoiU25zdGVsZWNvbV9k ZWRpY2F0ZWRfcG9vbCIsImIiOiI3NF85MV84NV8yMzgifQ== Received: from [192.168.80.31] ([192.168.80.31:56153] helo=rs-ord-mta03-1.smtp.com) by rs-ord-mta03-4.smtp.com (envelope-from ) (ecelerity 4.1.0.46749 r(Core:4.1.0.4)) with ESMTP id 8B/F4-31550-891C6975; Tue, 26 Jul 2016 01:49:12 +0000 DKIM-Signature: v=1; a=rsa-sha256; d=smtp.com; s=smtpcomcustomers; c=relaxed/simple; q=dns/txt; i=@smtp.com; t=1469497752; h=From:Subject:To:Date:MIME-Version:Content-Type; bh=DEodAJThOSgqZYz+Uf0zgtKUYW3E6JruMs9vtTmlBXI=; b=X/6A93H586oR6+ZCL1v7zybFHtXEiSiZlbS06qYOjaaawYkqZ+XVNIcDxFXWk0M+ YbncpDIYO0KIz7ML5HfCHNpe30pELOwIZK2nyvpzPLaYaeioN2CeSsDudEuIDb4j s01kiyWWpfN9jGUT/dmnS93K3qEnRa64RTFsOe0tqjc=; Received: from [70.79.69.78] ([70.79.69.78:23603] helo=S01061c1b689e28c7.vc.shawcable.net) by rs-ord-mta03-1.smtp.com (envelope-from ) (ecelerity 4.1.0.46749 r(Core:4.1.0.4)) with ESMTPA id D9/42-27027-591C6975; Tue, 26 Jul 2016 01:49:12 +0000 MIME-Version: 1.0 From: "Andy Silva" Reply-To: andy.silva@snsreports.com To: freebsd-ppc@freebsd.org Subject: The 5G Wireless Ecosystem: 2016 - 2030 - Technologies, Applications, Verticals, Strategies & Forecasts (Report) X-Mailer: Smart_Send_2_0_138 Date: Mon, 25 Jul 2016 18:49:03 -0700 Message-ID: <50242426087683081911850@Ankur> X-Report-Abuse: SMTP.com is an email service provider. Our abuse team cares about your feedback. Please contact abuse@smtp.com for further investigation. X-SMTPCOM-Tracking-Number: c74faebe-7559-4224-9aac-f4b14c9b5b2a X-SMTPCOM-Sender-ID: 6008902 Feedback-ID: 6008902:SMTPCOM Content-Type: text/plain; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable X-Content-Filtered-By: Mailman/MimeDel 2.1.22 X-BeenThere: freebsd-ppc@freebsd.org X-Mailman-Version: 2.1.22 Precedence: list List-Id: Porting FreeBSD to the PowerPC List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Tue, 26 Jul 2016 01:49:24 -0000 The 5G Wireless Ecosystem: 2016 - 2030 - Technologies, Applications, Vertic= als, Strategies & Forecasts Hello=20 Our latest report " The 5G Wireless Ecosystem: 2016 =96 2030 =96 Technologi= es, Applications, Verticals, Strategies & Forecasts" indicates that future = 5G networks are expected to generate nearly $250 Billion in service revenue= by 2025. I wanted to bring to your attention to this report in which you m= ight be interested, =20 Key Questions Answered: =20 The report provides answers to the following key questions: How much will vendors and operators invest in 5G R&D commitments=3F What will be the number of 5G subscriptions in 2020 and at what rate will i= t grow=3F What will be the key applications of 5G networks=3F What trends, challenges and barriers will influence the development and ado= ption of 5G=3F Which regions and countries will be the first to adopt 5G=3F Will 5G networks utilize new spectrum bands=3F Who are the key 5G vendors and what are their strategies=3F Will 5G networks rely on a C-RAN architecture=3F What are the prospects of millimeter wave technology for 5G radio access ne= tworking=3F What will be the impact of 5G on the M2M and IoT ecosystem=3F Will drone and satellite based communication platforms play a wider role in= 5G networks=3F Report Information: Release Date: February 2016 Number of Pages: 145 Number of Tables and Figures: 59 Report Overview: While LTE and LTE-Advanced deployments are still underway, mobile operators= and vendors have already embarked on R&D initiatives to develop so-called = =935G=94 technology, with a vision of commercialization by 2020". 5G is ess= entially a revolutionary paradigm shift in wireless networking to support t= he throughput, latency and scalability requirements of future use cases suc= h as extreme bandwidth augmented reality applications and connectivity mana= gement for Billions of M2M (Machine to Machine) devices. Although 5G is yet to be standardized, vendors are aggressively investing i= n 5G development efforts with a principal focus on new air interface transm= ission schemes, higher frequency bands and advanced antenna technologies su= ch as Massive MIMO and beamforming. With large scale commercial deployments= expected to begin in 2020, we estimate that 5G networks will generate near= ly $250 Billion in annual service revenue by 2025. The =935G Wireless Ecosystem: 2016 =96 2030 =96 Technologies, Applications,= Verticals, Strategies & Forecasts=94 report presents an in-depth assessmen= t of the emerging 5G ecosystem including key market drivers, challenges, en= abling technologies, use cases, vertical market applications, spectrum asse= ssment, mobile operator deployment commitments, case studies, standardizati= on, research initiatives and vendor strategies. The report also presents fo= recasts for 5G investments and operator services. The report comes with an associated Excel datasheet suite covering quantita= tive data from all numeric forecasts presented in the report =20 Key Findings: =20 The report has the following key findings: Although 5G is yet to be standardized, vendors are aggressively investing i= n 5G development efforts with a principal focus on new air interface transm= ission schemes, higher frequency bands and advanced antenna technologies su= ch as Massive MIMO and beamforming. Driven by regional, national government, mobile operator and vendor initiat= ives, we expect that over $6 Billion will be spent on 5G R&D and trial inve= stments between 2015 and 2020. With large scale commercial deployments expected to begin in 2020, we estim= ate that 5G networks will generate nearly $250 Billion in annual service re= venue by 2025. 5G networks are expected to utilize a variety of spectrum bands for diverse= applications, ranging from established sub-6 GHz cellular bands to millime= ter wave frequencies. Topics Covered: =20 The report covers the following topics: 5G requirements, use cases and vertical market applications 5G market drivers and barriers Air interface and antenna technologies: new waveforms, millimeter wave radi= o access, MIMO, phased array antennas and beamforming=20 Spectrum technologies: cognitive radio, spectrum sensing, aggregation and L= SA (Licensed Shared Access) D2D (Device to Device) communications and self-backhauling networks Complimentary technologies for 5G: NFV (Network Functions Virtualization), = SDN (Software Defined Networking), HetNets (Heterogeneous Networks), C-RAN = (Centralized RAN), Cloud RAN, MEC (Mobile Edge Computing), drones and satel= lites Mobile operator commitments, case studies and 5G spectrum assessment 5G Standardization and research initiatives Competitive assessment of vendor strategies R&D, commercial infrastructure and operator service forecasts till 2030 Forecast Segmentation: Market forecasts are provided for each of the following submarkets and thei= r subcategories: 5G R&D Investments New Waveforms & Millimeter Wave Radio Access MIMO, Beamforming & Antenna Technologies Interference & Spectrum Management C-RAN, Virtualization & Other Technologies 5G Commercial Infrastructure Investments Distributed Macrocell Base Stations Small Cells RRHs (Remote Radio Heads) C-RAN BBUs (Baseband Units) Mobile Core Fronthaul & Backhaul Networking 5G Operator Services Subscriptions Service Revenue Regional Segmentation Asia Pacific Eastern Europe Latin & Central America Middle East & Africa North America Western Europe Report Pricing: Single User License: USD 2,500 Company Wide License: USD 3,500 Ordering Process: Provide the following information: 1. Report Title - 2. Report License - (Single User/Company Wide) 3. Name - 4. Email - 5. Job Title - 6. Company - 7. Invoice Address - Please contact me if you have any questions, or wish to purchase a copy. Ta= ble of contents and List of figures mentioned below for your better inside. I look forward to hearing from you. Kind Regards Andy Silva Marketing Executive Signals and Systems Telecom andy.silva@snsreports.com ___________________________________________________________________________= __________________________________________________________________________ =20 Table of Content =20 1.1 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 =20 Chapter 2: The Evolving 5G Ecosystem 2.1 What is 5G=3F 2.2 5G Requirements 2.2.1 Data Volume 2.2.2 Throughput 2.2.3 Response Time & Latency 2.2.4 Device Density 2.2.5 Availability & Coverage 2.2.6 Battery Life 2.2.7 Energy Saving & Cost Reduction 2.3 5G Market Drivers 2.3.1 Why the Need for a 5G Standard=3F 2.3.2 Improving Spectrum Utilization 2.3.3 Advances in Air Interface Transmission Schemes 2.3.4 Gigabit Wireless Connectivity: Supporting Future Services 2.3.5 Moving Towards the IoT (Internet of Things): Increasing Device Dens= ity 2.3.6 Towards a Flatter Network Architecture 2.4 Challenges & Inhibitors to 5G 2.4.1 Skepticism 2.4.2 Standardization Challenges: Too Many Stakeholders 2.4.3 Spectrum Regulation & Complexities 2.4.4 Massive MIMO, Beamforming & Antenna Technology Issues 2.4.5 Higher Frequencies Mean New Infrastructure 2.4.6 Complex Performance Requirements 2.4.7 Energy Efficiency & Technology Scaling 2.5 5G Applications & Use Cases 2.5.1 Extreme Bandwidth Applications: Video, Internet Gaming & Augmented = Reality 2.5.2 MTC/M2M, IoT & Ubiquitous Communications 2.5.2.1 Short-burst Traffic 2.5.3 Vertical Industries & Safety Critical Domains 2.5.3.1 Automotive 2.5.3.2 Energy & Smart Grids 2.5.3.3 Transport & Logistics 2.5.3.4 Healthcare 2.5.3.5 Smart Cities 2.5.3.6 Public Safety 2.5.3.7 Fitness & Sports =20 Chapter 3: Enabling Technologies for 5G 3.1 Key Technologies & Concepts 3.1.1 Air Interface: Waveform Options 3.1.2 Millimeter Wave Radio Access 3.1.3 Massive MIMO 3.1.4 Phased Array Antennas 3.1.5 Beamforming 3.1.6 D2D (Device to Device) Communications 3.1.7 Self-Backhauling & Mesh Networking 3.1.8 Cognitive Radio & Spectrum Sensing 3.1.9 Unlicensed Spectrum Usage 3.1.10 LSA (Licensed Shared Access) 3.1.11 Spectrum Aggregation 3.1.12 Integration of VLC (Visible Light Communication) 3.2 Complimentary Technologies 3.2.1 NFV & SDN 3.2.2 HetNet & C-RAN Architecture 3.2.3 Cloud RAN 3.2.4 MEC (Mobile Edge Computing) 3.2.5 Drones & Satellites 3.2.5.1 Satellite Integration in 5G Networks 3.2.5.2 Google and Facebook=92s Drone Ambitions 3.2.5.3 Interest from Mobile Operators =20 Chapter 4: 5G Investments & Future Forecast 4.1 How Much is Being Invested in 5G R&D=3F 4.2 R&D Investments by Technology 4.2.1 New Waveforms & Millimeter Wave Radio Access 4.2.2 MIMO, Beamforming & Antenna Technologies 4.2.3 Interference & Spectrum Management 4.2.4 C-RAN, Virtualization & Other Technologies 4.3 Global Outlook for 5G Infrastructure 4.3.1 Segmentation by Submarket 4.3.2 Distributed Macrocell Base Stations 4.3.3 Small Cells 4.3.4 RRHs (Remote Radio Heads) 4.3.5 C-RAN BBUs (Baseband Units) 4.3.6 Mobile Core 4.3.7 Fronthaul & Backhaul Networking 4.3.8 Segmentation by Region 4.4 Global Outlook for 5G Operator Services 4.4.1 Subscriptions 4.4.2 Service Revenue 4.4.3 Regional Segmentation 4.5 Asia Pacific 4.5.1 Infrastructure 4.5.2 Subscriptions 4.5.3 Service Revenue 4.6 Eastern Europe 4.6.1 Infrastructure 4.6.2 Subscriptions 4.6.3 Service Revenue 4.7 Latin & Central America 4.7.1 Infrastructure 4.7.2 Subscriptions 4.7.3 Service Revenue 4.8 Middle East & Africa 4.8.1 Infrastructure 4.8.2 Subscriptions 4.8.3 Service Revenue 4.9 North America 4.9.1 Infrastructure 4.9.2 Subscriptions 4.9.3 Service Revenue 4.10 Western Europe 4.10.1 Infrastructure 4.10.2 Subscriptions 4.10.3 Service Revenue =20 Chapter 5: Mobile Operator Commitments & 5G Spectrum Assessment 5.1 Mobile Operator Commitments 5.1.1 Japan, South Korea & Asia 5.1.2 Europe 5.1.3 North America 5.1.4 Rest of the World 5.1.5 Operator Case Studies 5.1.5.1 NTT DoCoMo 5.1.5.2 SK Telecom 5.2 Spectrum Options for 5G 5.2.1 Sub-1 GHz 5.2.2 1-6 GHz 5.2.2.1 3-4 GHz 5.2.2.2 5 GHz 5.2.3 Above 6 GHz 5.2.3.1 15 GHz 5.2.3.2 24-30 GHz 5.2.3.3 30-60 GHz 5.2.3.4 60, 70 & 80 GHz 5.2.4 Higher Bands =20 Chapter 6: 5G Standardization & Research Initiatives 6.1 ITU (International Telecommunication Union) 6.1.1 IMT-2020 6.1.2 Spectrum Allocation 6.2 3GPP (Third Generation Partnership Project) 6.2.1 Phased Standardization Approach 6.2.2 R&D Efforts 6.3 ETSI (European Telecommunications Standards Institute) 6.3.1 ISGs (Industry Specification Groups) for Enabling Technologies 6.4 GSMA 6.4.1 Defining 5G 6.4.2 Spectrum Policy Position 6.5 NGMN (Next Generation Mobile Networks) Alliance 6.5.1 5G Work Program 6.6 5G Americas 6.6.1 5G Advocacy Efforts 6.7 WWRF (World Wireless Research Forum) 6.7.1 New Working Groups for 5G 6.8 IEEE (Institute of Electrical and Electronics Engineers) 6.8.1 5G Advocacy Efforts 6.9 Small Cell Forum 6.9.1 Mapping 5G Requirements for Small Cells 6.10 CableLabs 6.10.1 Research on High Capacity Millimeter Wave Small Cells 6.11 European Commission Initiatives 6.11.1 5G PPP (5G Infrastructure Public Private Partnership) 6.11.1.1 5G NORMA 6.11.1.2 METIS-II 6.11.1.3 mmMAGIC 6.11.1.4 FANTASTIC-5G 6.11.1.5 Flex5Gware 6.11.1.6 5G-XHaul 6.11.1.7 5G-Crosshaul 6.11.1.8 Other Projects 6.11.2 FP7 Projects 6.11.2.1 METIS 6.11.2.2 5GNOW 6.11.2.3 MiWEBA 6.11.2.4 MiWaveS 6.11.2.5 Other Projects 6.12 National Initiatives 6.12.1 South Korea 6.12.1.1 5G Forum 6.12.1.2 ETRI (Electronics and Telecommunications Research) 6.12.2 Japan 6.12.2.1 ARIB 20B AH (2020 and Beyond AdHoc) 6.12.2.2 5GMF (Fifth Generation Mobile Communications Promotion Forum) 6.12.3 China 6.12.3.1 IMT-2020 (5G) Promotion Group 6.12.3.2 863 Research Program 6.12.3.3 Future Forum 6.12.4 Taiwan 6.12.4.1 TAICS (Taiwan Association of Information and Communication Sta= ndards) 6.12.5 USA 6.12.5.1 NSF (National Science Foundation) 6.12.5.2 NIST (National Institute of Standards and Technology) 6.12.5.3 FCC (Federal Communications Commission) 6.12.5.4 ATIS (Alliance for Telecommunications Industry Solutions) 6.12.5.5 TIA (Telecommunications Industry Association) 6.12.6 UK 6.12.6.1 Ofcom 6.12.7 Russia 6.12.7.1 5GRUS 6.12.8 Germany 6.12.8.1 5G:Haus 6.12.9 Spain 6.12.9.1 5TONIC 6.12.10 Finland 6.12.10.1 5GTNF (5G Test Network Finland) 6.13 Academic Initiatives 6.13.1 5GIC (5G Innovation Center, University of Surrey) 6.13.2 NYU WIRELESS (New York University) 6.13.3 5G Lab (TU Dresden) 6.13.4 Viterbi School of Engineering (University of Southern California) 6.13.5 Hiroshima University 6.13.6 Tokyo Institute of Technology =20 Chapter 7: Vendor Demonstrations, Commitments & Strategies 7.1 Cohere Technologies 7.1.1 5G Strategy 7.1.2 Demonstrations & Trial Commitments 7.2 Cisco Systems 7.2.1 5G Strategy 7.2.2 Demonstrations & Trial Commitments 7.3 Ericsson 7.3.1 5G Strategy 7.3.2 Demonstrations & Trial Commitments 7.4 Fujitsu 7.4.1 5G Strategy 7.4.2 Demonstrations & Trial Commitments 7.5 Google 7.5.1 5G Strategy 7.5.2 Demonstrations & Trial Commitments 7.6 Huawei 7.6.1 5G Strategy 7.6.2 Demonstrations & Trial Commitments 7.7 Intel Corporation 7.7.1 5G Strategy 7.7.2 Demonstrations & Trial Commitments 7.8 InterDigital 7.8.1 5G Strategy 7.8.2 Demonstrations & Trial Commitments 7.9 Keysight Technologies 7.9.1 5G Strategy 7.9.2 Demonstrations & Trial Commitments 7.10 Kumu Networks 7.10.1 5G Strategy 7.10.2 Demonstrations & Trial Commitments 7.11 Mitsubishi Electric 7.11.1 5G Strategy 7.11.2 Demonstrations & Trial Commitments 7.12 NEC Corporation 7.12.1 5G Strategy 7.12.2 Demonstrations & Trial Commitments 7.13 NI (National Instruments) 7.13.1 5G Strategy 7.13.2 Demonstrations & Trial Commitments 7.14 Nokia 7.14.1 5G Strategy 7.14.2 Demonstrations & Trial Commitments 7.15 Panasonic 7.15.1 5G Strategy 7.15.2 Demonstrations & Trial Commitments 7.16 Qualcomm 7.16.1 5G Strategy 7.16.2 Demonstrations & Trial Commitments 7.17 Rohde & Schwarz 7.17.1 5G Strategy 7.17.2 Demonstrations & Trial Commitments 7.18 Samsung 7.18.1 5G Strategy 7.18.2 Demonstrations & Trial Commitments 7.19 SiBEAM 7.19.1 5G Strategy 7.19.2 Demonstrations & Trial Commitments 7.20 ZTE 7.20.1 5G Strategy 7.20.2 Demonstrations & Trial Commitments =20 List of Figures Figure 1: 5G Requirements Figure 2: Potential Waveform Options for 5G Figure 3: D2D Communication Scenarios Figure 4: LSA Concept Figure 5: NFV Concept Figure 6: C-RAN Architecture Figure 7: Cloud RAN Concept Figure 8: Global 5G R&D Investments: 2016 - 2020 ($ Million) Figure 9: Global 5G R&D Investments by Technology: 2016 - 2020 ($ Million) Figure 10: Global 5G R&D Investments on New Waveforms & Millimeter Wave Rad= io Access: 2016 - 2020 ($ Million) Figure 11: Global 5G R&D Investments on MIMO, Beamforming & Antenna Technol= ogies: 2016 - 2020 ($ Million) Figure 12: Global 5G R&D Investments on Interference & Spectrum Management:= 2016 - 2020 ($ Million) Figure 13: Global 5G R&D Investments on C-RAN, Virtualization & Other Techn= ologies: 2016 - 2020 ($ Million) Figure 14: Global 5G Infrastructure Investments: 2020 - 2030 ($ Million) Figure 15: Global 5G Infrastructure Investments by Submarket: 2020 - 2030 (= $ Million) Figure 16: Global 5G Distributed Macrocell Base Station Shipments: 2020 - 2= 030 (Thousands of Units) Figure 17: Global 5G Distributed Macrocell Base Station Shipment Revenue: 2= 020 - 2030 ($ Million) Figure 18: Global 5G Small Cell Shipments: 2020 - 2030 (Thousands of Units) Figure 19: Global 5G Small Cell Shipment Revenue: 2020 - 2030 ($ Million) Figure 20: Global 5G RRH Shipments: 2020 - 2030 (Thousands of Units) Figure 21: Global 5G RRH Shipment Revenue: 2020 - 2030 ($ Million) Figure 22: Global 5G C-RAN BBU Shipments: 2020 - 2030 (Thousands of Units) Figure 23: Global 5G C-RAN BBU Shipment Revenue: 2020 - 2030 ($ Million) Figure 24: Global 5G Mobile Core Investments: 2020 - 2030 ($ Million) Figure 25: Global 5G Fronthaul & Backhaul Investments: 2020 - 2030 ($ Milli= on) Figure 26: 5G Infrastructure Investments by Region: 2020 - 2030 ($ Million) Figure 27: Global 5G Subscriptions: 2020 - 2030 (Millions) Figure 28: Global 5G Service Revenue: 2020 - 2030 ($ Billion) Figure 29: 5G Subscriptions by Region: 2020 - 2030 (Millions) Figure 30: 5G Service Revenue by Region: 2020 - 2030 ($ Billion) Figure 31: Asia Pacific 5G Infrastructure Investments: 2020 - 2030 ($ Milli= on) Figure 32: Asia Pacific 5G Subscriptions: 2020 - 2030 (Millions) Figure 33: Asia Pacific 5G Service Revenue: 2020 - 2030 ($ Billion) Figure 34: Eastern Europe 5G Infrastructure Investments: 2020 - 2030 ($ Mil= lion) Figure 35: Eastern Europe 5G Subscriptions: 2020 - 2030 (Millions) Figure 36: Eastern Europe 5G Service Revenue: 2020 - 2030 ($ Billion) Figure 37: Latin & Central America 5G Infrastructure Investments: 2020 - 20= 30 ($ Million) Figure 38: Latin & Central America 5G Subscriptions: 2020 - 2030 (Millions) Figure 39: Latin & Central America 5G Service Revenue: 2020 - 2030 ($ Billi= on) Figure 40: Middle East & Africa 5G Infrastructure Investments: 2020 - 2030 = ($ Million) Figure 41: Middle East & Africa 5G Subscriptions: 2020 - 2030 (Millions) Figure 42: Middle East & Africa 5G Service Revenue: 2020 - 2030 ($ Billion) Figure 43: North America 5G Infrastructure Investments: 2020 - 2030 ($ Mill= ion) Figure 44: North America 5G Subscriptions: 2020 - 2030 (Millions) Figure 45: North America 5G Service Revenue: 2020 - 2030 ($ Billion) Figure 46: Western Europe 5G Infrastructure Investments: 2020 - 2030 ($ Mil= lion) Figure 47: Western Europe 5G Subscriptions: 2020 - 2030 (Millions) Figure 48: Western Europe 5G Service Revenue: 2020 - 2030 ($ Billion) Figure 49: NTT DoCoMo=92s 5G Roadmap Figure 50: SK Telecom=92s Phased 5G Approach Figure 51: BBU-RRH Functional Split Options for 5G C-RAN Figure 52: Spectrum Bands for 5G Figure 53: IMT-2020 Development Roadmap Figure 54: 3GPP 5G Standardization Roadmap Figure 55: NGMN 5G Work Program Figure 56: 5G Networks & Service Vision Figure 57: 5G PPP=92s Development Roadmap Figure 58: ARIB=92s Vision of Radio Access Technologies for 5G Figure 59: Japan 5G Implementation Roadmap =20 Thank you once again and looking forward to hearing from you. =20 Kind Regards =20 Andy Silva Marketing Executive Signals and Systems Telecom andy.silva@snsreports.com =20 =20 To unsubscribe send an email with unsubscribe in the subject line to: remov= e@snsreports.com