Date: Wed, 6 Jan 2016 02:33:15 -0800 From: "Andy Silva" <andy.silva@snscommunication.com> To: gnome@freebsd.org Subject: The Wireless Network Infrastructure Ecosystem: 2015 - 2020 - Macrocell RAN, Small Cells, C-RAN, RRH, DAS, Carrier WiFi, Mobile Core, Backhaul & Fronthaul. (Report) Message-ID: <7996423136408244792490@Ankur>
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=20 Hello=20 I wanted to bring to your attention the latest SNS Research report in which= you might be interested, " The Wireless Network Infrastructure Ecosystem: = 2015 =96 2020 - Macrocell RAN, Small Cells, C-RAN, RRH, DAS, Carrier WiFi, = Mobile Core, Backhaul & Fronthaul." Below is snapshot details of the comprehansive report. If you would like to= see the report sample or have any questions, please let me know. =20 Report Information: =20 Number of Pages: 759 Number of Tables and Figures: 512 Report Overview: The term =93Wireless Network Infrastructure=94 has conventionally been asso= ciated with macrocell RAN (Radio Access Network) and mobile core network in= frastructure. However, the scope of the term is expanding as wireless carri= ers increase their investments in Heterogeneous Network or HetNet infrastru= cture such as small cells, carrier WiFi and DAS (Distributed Antenna System= ) nodes, to cope with increasing capacity and coverage requirements. In addition, wireless carriers are keen to shift towards a C-RAN (Centraliz= ed RAN) architecture, which centralizes baseband functionality to be shared= across a large number of distributed radio nodes. In comparison to standal= one clusters of base stations, C-RAN provides significant performance and e= conomic benefits such as baseband pooling, enhanced coordination between ce= lls, virtualization, network extensibility and energy efficiency. Despite an ongoing decline in traditional macrocell RAN spending, the wider= wireless network infrastructure market encompassing macrocell RAN, small c= ells, C-RAN, RRH, DAS, mobile core, backhaul and fronthaul infrastructure w= ill continue to witness growth over the coming years. By the end of 2020, t= he market is expected to account for over $92 Billion in revenue. Complimen= ting this growth would be over $5 Billion worth of annual R&D investments o= n 5G mobile technology funded by regional, national government, wireless ca= rrier and vendor initiatives. The =93Wireless Network Infrastructure Ecosystem: 2015 =96 2020 - Macrocell= RAN, Small Cells, C-RAN, RRH, DAS, Carrier WiFi, Mobile Core, Backhaul & F= ronthaul=94 report presents an in-depth assessment of 10 individual submark= ets of the wireless network infrastructure opportunity. Besides analyzing k= ey market drivers, challenges, enabling technologies, investment trends, op= erator revenue potential, regional CapEx commitments, network rollout strat= egies, future roadmap,5G R&D initiatives, value chain, vendor assessment an= d market share, the report also presents revenue and unit shipment forecast= s for 10 submarkets from 2015 to 2020 at a regional as well as a global sca= le. Historical figures are also provided for 2010, 2011, 2013 and 2014. The report comes with an associated Excel datasheet suite covering quantita= tive data from over 500 numeric forecasts presented in the report. Key Findings: The report has the following key findings: Despite an ongoing decline in traditional macrocell RAN spending, the wider= wireless network infrastructure market will continue to witness growth ove= r the coming years. By the end of 2020, the market will account for over $9= 2 Billion in revenue Vendors are increasing their focus on profit margins. Many are already cutt= ing staff, embracing operational excellence, evolving their new business mo= dels, acquiring niche businesses and expanding their managed services offer= ings New CapEx commitment avenues such as HetNet infrastructure and virtualizati= on will continue to usher industry restructuring, and market consolidation As wireless carriers look to migrate towards scalable centralized baseband = architectures, C-RAN investments will grow at a CAGR of 23% between 2015 an= d 2020. By the end of 2020, C-RAN investments will account for nearly $14 B= illion Developing market growth will be a significant factor during the forecast p= eriod, with China and India seeing some of the highest levels of growth, bo= th in terms of shipments and in the size of their installed base Due to investments in a single RAN technology, future LTE investments will = cost much less than early investments of the technology Supplemented with a drive towards C-RAN and virtualization, a limited amoun= t of hardware installation will be needed when wireless carriers upgrade to= LTE-Advanced and 5G networks in the future By 2020, VoLTE subscriptions will surpass 700 Million, while nearly 60% of = all LTE subscriptions will be served by LTE-Advanced networks Driven by regional, national government, wireless carrier and vendor initia= tives, we expect 5G R&D and trial investments will account for nearly $5 Bi= llion by 2020, following a CAGR of nearly 40% over the next 5 years Topics Covered: The report covers the following topics: Up-to-date coverage of market dynamics allowing wireless network infrastruc= ture vendors to analyze opportunities and challenges of selling to wireless= carriers in different regional markets Analysis of demand and supply of wireless infrastructure. Research includes= quantitative and qualitative market assessments as well as the forecasts o= f investment trends, technology requirements and deployment strategies for = antenna, RAN, mobile core, backhaul and fronthaul deployments Market analysis and forecasts for 10 individual submarkets and their subcat= egories: Macrocell RAN, small cell RAN, C-RAN BBU (Baseband Unit), RRH (Rem= ote Radio Head), DAS (Distributed Antenna System), carrier WiFi, mobile cor= e, macrocell backhaul, small cell backhaul and mobile fronthaul Company profiles and strategies of over 350 ecosystem players including inf= rastructure vendors and enabling technology providers. The report also cove= rs vendor market share for macrocell RAN, small cell RAN, C-RAN, DAS, carri= er WiFi, mobile core and backhaul Wireless network infrastructure value chain and future roadmap. The report = also provides an assessment of the emerging 5G ecosystem, including key ena= bling technologies, R&D initiatives, investment commitments, vendor strateg= ies and forecasts Review of mobile network CapEx commitments, network subscriptions, traffic = projections and service revenue, by technology and region Market outlook for key technologies including TD-LTE, LTE-Advanced, VoLTE, = RCS, LTE-Broadcast and LTE-U Historical Revenue & Forecast Segmentation: Market forecasts and historical revenue/unit shipment figures are provided = for each of the following submarkets and their subcategories:=20 Submarkets Macrocell RAN Small Cell RAN C-RAN BBU (Baseband Unit) RRH (Remote Radio Head) DAS (Distributed Antenna System) Carrier WiFi Mobile Core Macrocell Backhaul Small Cell Backhaul Mobile Fronthaul The following regional and technology markets are also covered: Regional Markets Asia Pacific Eastern Europe Latin & Central America Middle East & Africa North America Western Europe Technology Markets GSM CDMA/CDMA2000/EV-DO W-CDMA/HSPA LTE FDD TD-LTE WiMAX WiFi Key Questions Answered: The report provides answers to the following key questions: How is the 2G, 3G & 4G wireless network infrastructure market evolving by s= egment and region=3F What will the market size be in 2020 and at what rate = will it grow=3F What trends, challenges and barriers are influencing its growth=3F How will the market shape for small cell, C-RAN and DAS deployments=3F Is Ethernet a feasible solution to for C-RAN fronthaul=3F What are the future prospects of millimeter wave technology for backhaul, f= ronthaul and RAN deployments=3F How will carrier WiFi fit into future mobile network architectures for acce= ss and offload=3F Who are the key vendors in the market, what is their market share and what = are their strategies=3F What strategies should be adopted by wireless carriers and infrastructure v= endors to remain a dominant market force=3F Which 2G, 3G & 4G technology constitutes the highest amount of spending and= how will this evolve overtime=3F How will LTE deployments proceed, and how long will GSM, W-CDMA/HSPA and CD= MA technologies co-exist with LTE=3F When will WiMAX infrastructure spending diminish=3F What is the global and regional outlook for each individual sub-market incl= uding macrocell RAN, small cells, C-RAN, RRH, DAS, carrier WiFi, mobile cor= e, macrocell backhaul, small cell backhaul and mobile fronthaul=3F What is the outlook for TD-LTE, LTE-Advanced, VoLTE, RCS, LTE-Broadcast and= LTE-U technologies=3F Do emerging virtualization technologies such as NFV (Network Functions Virt= ualization) pose a threat to traditional wireless infrastructure vendors=3F How much will vendors and operators invest in 5G R&D=3F How low is the TCO (Total Cost of Ownership) of a HetNet deployment in comp= arison to a homogeneous macrocell RAN network=3F Report Pricing: Single User License: USD 2,500 Company Wide License: USD 3,500 Ordering Process: Please contact Andy Silva on andy.silva@snscommunication.com 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 Reef Tower Jumeirah Lake Towers Sheikh Zayed Road Dubai, UAE =20 ___________________________________________________________________________= __________________________________________________________________________ =20 Table of Content =20 1.1 Executive Summary 1.2 Topics Covered 1.3 Historical Revenue & Forecast Segmentation 1.4 Key Questions Answered 1.5 Key Findings 1.6 Methodology 1.7 Target Audience 1.8 Companies & Organizations Mentioned =20 2 Chapter 2: An Overview of Wireless Network Infrastructure 2.1 What is the Wireless Network Infrastructure Market=3F 2.2 2G: GSM & CDMA 2.2.1 2G Trends & Developments 2.2.2 2G Market Summary 2.3 3G: W-CDMA, TD-SCDMA & CDMA2000 2.3.1 3G Trends & Developments 2.3.2 3G Market Summary 2.4 4G: LTE, LTE-Advanced & WiMAX 2.4.1 4G Trends & Developments 2.4.2 4G Market Summary 2.5 Macrocell RAN Market for 2G/3G/4G 2.5.1 Macrocell RAN Trends & Developments 2.6 HetNet RAN Market for 2G/3G/4G 2.6.1 HetNet RAN Trends & Developments 2.6.2 Small Cells 2.6.3 C-RAN 2.6.4 DAS 2.6.5 Carrier WiFi 2.7 Mobile Core 2.7.1 Mobile Core Trends & Developments 2.8 Mobile Backhaul & Fronthaul 2.8.1 Mobile Backhaul/Fronthaul Trends & Developments =20 3 Chapter 3: Market Drivers, Barriers & Risks 3.1 Market Drivers 3.1.1 Mobile Subscriptions Growth 3.1.1.1 Asia Pacific 3.1.1.2 Eastern Europe 3.1.1.3 Latin & Central America 3.1.1.4 Middle East & Africa 3.1.1.5 North America 3.1.1.6 Western Europe 3.1.2 Smartphone & Tablet Proliferation 3.1.3 Growing Penetration of Mobile Broadband 3.1.4 Mobile Data Traffic Growth 3.1.5 Interest from Vertical Markets 3.1.6 Reducing the TCO (Total Cost of Ownership) 3.1.7 Replacement of TDM with Ethernet: Continued Growth in Backhaul 3.1.8 Advances in Spectrum Flexibility & Carrier Aggregation: Driving HetNe= t Deployments 3.1.9 Strategic Choice for CDMA & WiMAX Operators: Join Mainstream Ecosystem 3.1.10 Addressing Legacy Network Congestion 3.1.11 Bringing Broadband to the Masses 3.1.12 Trend Summary: Which Segments of the Wireless Infrastructure Market = Will Witness Growth=3F 3.2 Barriers & Risks 3.2.1 CapEx Commitments 3.2.2 Spectrum Scarcity 3.2.3 RAN Sharing: A Concept Embraced by Operators 3.2.4 Operators Are Finding Innovative Ways to Address Capacity Issues 3.2.5 Social, Political, Economic and Environmental Threats 3.2.6 Country Specific Risks 3.3 Key Strategic Options for Operators 3.4 Business Case for Investments in New and Existing Technologies 3.4.1 Gain Operational Efficiencies Through Strategic Investments 3.4.2 Invest in Capacity for Increased Revenue Opportunities 3.4.3 Deliver Best User Experience 3.4.4 Reduce Competitive Threats 3.4.5 Reserve Network Capacity the M2M Opportunities 3.4.6 Increase Customer Satisfaction 3.4.7 Capitalize on Differentiation Strategies 3.4.8 Evolve towards the Next Generation =20 4 Chapter 4: Mobile Network CapEx Review 4.1 Global Mobile Network CapEx 4.2 Regional Split 4.3 Key Operator Commitments 4.3.1 China Mobile 4.3.2 China Unicom 4.3.3 AT&T Mobility 4.3.4 Vodafone Group 4.3.5 Verizon Wireless 4.3.6 China Telecom 4.3.7 NTT DoCoMo 4.3.8 Sprint Corporation 4.3.9 SoftBank Corporation 4.3.10 T-Mobile US 4.3.11 KDDI 4.3.12 DT (Deutsche Telekom) 4.3.13 MTS (Mobile TeleSystems) 4.3.14 Orange 4.3.15 Telenor Group 4.3.16 SK Telecom 4.3.17 Vivo 4.3.18 TIM Brazil 4.3.19 LG Uplus 4.3.20 Telkomsel 4.3.21 Megafon 4.3.22 Bharti Airtel 4.3.23 Movistar Venezuela 4.3.24 TIM (Telecom Italia Mobile) 4.3.25 Vimpelcom 4.4 Asia Pacific Mobile Network CapEx 4.5 Eastern Europe Mobile Network CapEx 4.6 Latin & Central America Mobile Network CapEx 4.7 Middle East & Africa Mobile Network CapEx 4.8 North America Mobile Network CapEx 4.9 Western Europe Mobile Network CapEx =20 5 Chapter 5: Mobile Network Subscriptions & Service Revenue Review 5.1 Global Mobile Network Subscriptions 5.2 Global Mobile Network Service Revenue 5.3 Segmentation by Technology 5.3.1 Mobile Network Subscriptions by Technology 5.3.2 Mobile Network Service Revenue by Technology 5.4 GSM Subscriptions & Service Revenue 5.5 iDEN Subscriptions & Service Revenue 5.6 CDMA Subscriptions & Service Revenue 5.7 W-CDMA/HSPA Subscriptions & Service Revenue 5.8 TD-SCDMA Subscriptions & Service Revenue 5.9 FDD LTE Subscriptions & Service Revenue 5.10 TD-LTE Subscriptions & Service Revenue 5.11 WiMAX Subscriptions & Service Revenue 5.12 Regional Split 5.12.1 Mobile Network Subscriptions by Region 5.12.2 Mobile Network Service Revenue by Region 5.13 Service Split 5.13.1 Mobile Network Service Revenue by Service Type 5.13.2 Voice Service Revenue 5.13.3 SMS/MMS Service Revenue 5.13.4 Mobile Broadband Service Revenue 5.14 Asia Pacific Mobile Network Subscriptions & Service Revenue 5.15 Eastern Europe Mobile Network Subscriptions & Service Revenue 5.16 Latin & Central America Mobile Network Subscriptions & Service Revenue 5.17 Middle East & Africa Mobile Network Subscriptions & Service Revenue 5.18 North America Mobile Network Subscriptions & Service Revenue 5.19 Western Europe Mobile Network Subscriptions & Service Revenue =20 6 Chapter 6: Wireless Network Deployment Strategies 6.1 Antenna & RAN Strategies 6.1.1 Single RAN vs. Overlay Deployment 6.1.2 Adopting an RRH and FTTA Design 6.1.3 Migrating Towards C-RAN Architecture 6.1.4 Optimal Antenna Selection 6.1.5 Interference Limitation Strategies 6.1.6 Managing Co-Existence with Legacy 3G/2G RF Sites 6.2 Mobile Core Strategies 6.2.1 Integration of Functions & Virtualization 6.2.2 Deployment Architecture Choices 6.2.3 Supporting Legacy Networks 6.2.4 Integration with IMS 6.2.5 Embedding DPI for Policy Enforcement & Network Optimization 6.3 Backhaul & Fronthaul Strategies 6.3.1 Architectural Impact of X2 Interface 6.3.2 LTE-Advanced Requirements 6.3.3 Growing Backhaul Capacity & Latency Requirements 6.3.4 IPsec 6.3.5 Technology Options: Fiber, Microwave & Millimeter Wave 6.3.6 Developing a HetNet Backhaul Strategy 6.3.7 Synchronization and Timing 6.3.8 Backhaul Sharing 6.3.9 Fronthaul Options: Fiber vs. Wireless =20 7 Chapter 7: Industry Roadmap & Value Chain 7.1 Industry Roadmap 7.1.1 Initial LTE FDD Rollouts: 2010 - 2011 7.1.2 Rise of the HetNet Ecosystem: 2012 - 2013 7.1.3 A Wave of TD-LTE and LTE-Advanced Deployments: 2014 - 2016 7.1.4 Moving Towards Virtualized Infrastructure: 2017 - 2019 7.1.5 Start of the 5G Era: 2020 & Beyond 7.2 Value Chain 7.3 Embedded Technology Ecosystem 7.3.1 Chipset Developers 7.3.2 Embedded Component/Software Providers 7.4 RAN Ecosystem 7.4.1 Macrocell RAN OEMs 7.4.2 Pure-Play and Specialist Small Cell OEMs 7.4.3 WiFi Access Point OEMs 7.4.4 DAS & Repeater Solution Providers 7.4.5 C-RAN Solution Providers 7.4.6 Other Technology & Network Component Providers/Enablers 7.5 Mobile Backhaul & Fronthaul Ecosystem 7.5.1 Backhaul & Fronthaul Solution Providers 7.6 Mobile Core Ecosystem 7.6.1 Core Network Infrastructure & Software Providers 7.7 Connectivity Ecosystem 7.7.1 2G, 3G & 4G Wireless Carriers 7.7.2 WiFi Connectivity Providers 7.7.3 SCaaS (Small Cells as a Service) Providers 7.8 SON Ecosystem 7.8.1 SON Solution Providers 7.9 SDN & NFV Ecosystem 7.9.1 SDN & NFV Providers =20 8 Chapter 8: Vendor Landscape 8.1 Vendor Outlook 8.1.1 Pricing & Growth Sustainability 8.1.2 Portfolio Diversification 8.2 Vendor Ranking 8.2.1 Macrocell RAN & Mobile Core 8.2.2 Small Cell RAN 8.2.3 C-RAN 8.2.4 DAS 8.2.5 Carrier WiFi 8.2.6 Mobile Backhaul =20 9 Chapter 9: Wireless Network Infrastructure Incumbents 9.1 Alcatel-Lucent 9.2 Cisco Systems 9.3 Ericsson 9.4 Fujitsu 9.5 Hitachi 9.6 Huawei 9.7 NEC Corporation 9.8 Nokia Networks 9.9 Samsung Electronics 9.10 ZTE =20 10 Chapter 10: Macrocell RAN, Small Cell, C-RAN & Mobile Core Specialists 10.1 Accelleran 10.2 Adax 10.3 ADB 10.4 Affirmed Networks 10.5 Airspan Networks 10.6 Airvana 10.7 Alpha Networks 10.8 Altiostar Networks 10.9 Arcadyan Technology Corporation 10.10 Argela 10.11 ARItel 10.12 Artemis Networks 10.13 Askey Computer Corporation 10.14 ASOCS 10.15 Athena Wireless Communications (Google) 10.16 Axxcelera Broadband Wireless (Moseley Associates) 10.17 Brocade Communications Systems 10.18 Casa Systems 10.19 CCI (Competitive Companies, Inc.) 10.20 Contela 10.21 Connectem (Brocade) 10.22 CS Corporation 10.23 Datang Mobile 10.24 Dongwon T&I 10.25 Femtel (Suzhou Femtel Communications) 10.26 Gemtek Technology Company 10.27 GENBAND 10.28 GWT (Global Wireless Technologies) 10.29 HP (Hewlett-Packard Company) 10.30 ip.access 10.31 Juni Global 10.32 Juniper Networks 10.33 Lemko 10.34 LGS Innovations 10.35 Mavenir (Mitel) 10.36 New Postcom Equipment Company 10.37 NewNet Communication Technologies 10.38 Nutaq 10.39 Oceus Networks 10.40 Panda Electronics (Nanjing Panda Electronics Company) 10.41 Parallel Wireless 10.42 Polaris Networks 10.43 Potevio (China Potevio Company) 10.44 Quanta Computer 10.45 Qucell 10.46 Quortus 10.47 Redline Communications 10.48 Sagemcom 10.49 Samji Electronics Company 10.50 SerComm Corporation 10.51 SK Telesys 10.52 SpiderCloud Wireless 10.53 Star Solutions 10.54 Sunnada (Fujian Sunnada Communication Company) 10.55 Taqua 10.56 Tecom 10.57 TEKTELIC Communications 10.58 Telum 10.59 Telrad Networks 10.60 WNC (Wistron NeWeb Corporation) 10.61 Z-Com (ZDC Wireless) =20 11 Chapter 11: Antenna, DAS & Repeater Solution Specialists 11.1 AceAxis 11.2 ADRF (Advanced RF Technologies) 11.3 Affarii Technologies 11.4 American Tower Corporation 11.5 Arqiva 11.6 Axis Teknologies 11.7 Black Box Corporation 11.8 BTI Wireless 11.9 CCI (Communication Components Inc.) 11.10 CCI (Crown Castle International) 11.11 CCI Systems 11.12 Cobham Wireless 11.13 Comba Telecom Systems Holdings 11.14 CommScope 11.15 Corning 11.16 Dali Wireless 11.17 DeltaNode (Bird Technologies) 11.18 Ethertronics 11.19 ExteNet Systems 11.20 Foxcom 11.21 Galtronics 11.22 Goodman Networks 11.23 GrenTech (China GrenTech Corporation) 11.24 JRC (Japan Radio Company) 11.25 JMA Wireless 11.26 Kisan Telecom 11.27 KMW 11.28 Kathrein-Werke KG 11.29 MER-CellO Wireless Solutions 11.30 Microlab (Wireless Telecom Group) 11.31 MTI Mobile 11.32 Nexius 11.33 Nextivity 11.34 RF Window 11.35 RFS (Radio Frequency Systems) 11.36 Rosenberger 11.37 SOLiD (SOLiD Technologies) 11.38 Sumitomo Electric Industries 11.39 TESSCO Technologies 11.40 Westell Technologies 11.41 Zinwave =20 12 Chapter 12: Carrier WiFi Specialists 12.1 4ipnet 12.2 ABB 12.3 Accuris Networks 12.4 Aerohive Networks 12.5 Alvarion Technologies 12.6 Aptilo Networks 12.7 Aruba Networks 12.8 Autelan 12.9 BandwidthX 12.10 Birdstep Technology 12.11 Browan Communications 12.12 BSG Wireless 12.13 D-Link Corporation 12.14 Edgewater Wireless Systems 12.15 EION Wireless 12.16 Firetide 12.17 Fortinet 12.18 Front Porch 12.19 GoNet Systems 12.20 Handlink Technologies 12.21 Meru Networks 12.22 Netgem 12.23 NETGEAR 12.24 Nomadix 12.25 Panasonic Corporation 12.26 Ro-Timak Technology 12.27 Ruckus Wireless 12.28 Senao Networks 12.29 Smith Micro Software 12.30 SpectrumMax 12.31 Syniverse Technologies 12.32 TP-LINK Technologies 12.33 Tranzeo Wireless Technologies 12.34 Ubiquiti Networks 12.35 WeFi 12.36 Zebra Technologies Corporation 12.37 ZyXEL =20 13 Chapter 13: Enabling Technology Providers 13.1 6WIND 13.2 Ablaze Wireless 13.3 Accelink Technologies 13.4 ADLINK Technology 13.5 ADI (Analog Devices Inc.) 13.6 AirHop Communications 13.7 AKM (Asahi Kasei Microdevices) 13.8 Allot Communications 13.9 Altera Corporation 13.10 Amarisoft 13.11 Amdocs 13.12 Anite 13.13 Anritsu Corporation 13.14 Aricent 13.15 ARM Holdings 13.16 Astellia 13.17 ASTRI (Hong Kong Applied Science and Technology Research Institute) 13.18 Avago Technologies 13.19 Azcom Technology 13.20 Benetel 13.21 Blu Wireless Technology 13.22 Broadcom 13.23 Cadence Design Systems 13.24 Cavium 13.25 CeedTec 13.26 Cellwize 13.27 Celtro 13.28 Coherent Logix 13.29 Comcores ApS 13.30 CommAgility 13.31 ConteXtream 13.32 Cyan 13.33 D2 Technologies 13.34 Dell 13.35 Direct Beam 13.36 eASIC Corporation 13.37 Eden Rock Communications 13.38 EDX Wireless 13.39 Eoptolink Technology 13.40 ERCOM 13.41 EXFO 13.42 EZchip Semiconductor 13.43 Federated Wireless 13.44 Faraday Technology Corporation 13.45 Finisar Corporation 13.46 GigaLight (Shenzhen Gigalight Technology Company) 13.47 GlobalFoundaries 13.48 Hisense (Hisense Broadband Multimedia Technology) 13.49 HG Genuine 13.50 IMEC International 13.51 InfoVista 13.52 InnoLight Technology Corporation 13.53 Intel Corporation 13.54 InterDigital 13.55 iPosi 13.56 Ixia 13.57 JDSU (JDS Uniphase Corporation) 13.58 Keysight Technologies 13.59 Kumu Networks 13.60 Lattice Semiconductor 13.61 Lime Microsystems 13.62 Macom (M/A-COM Technology Solutions) 13.63 Maxim Integrated 13.64 Microsemi Corporation 13.65 Mitsubishi Electric Corporation 13.66 Mobiveil 13.67 Molex 13.68 Nash Technologies 13.69 Node-H 13.70 Nomor Research 13.71 NXP Semiconductors 13.72 OE Solutions 13.73 Octasic 13.74 Optulink 13.75 P.I. Works 13.76 Pletronics 13.77 PMC-Sierra 13.78 Procera Networks 13.79 Public Wireless 13.80 Qualcomm 13.81 Qulsar 13.82 QEOS 13.83 Qwilt 13.84 RADCOM 13.85 Radisys Corporation 13.86 Rakon 13.87 Red Hat 13.88 Reverb Networks 13.89 RF DSP 13.90 Saguna Networks 13.91 SAI Technology 13.92 Sistelbanda 13.93 Source Photonics 13.94 Tata Elxsi 13.95 TEOCO Corporation 13.96 TI (Texas Instruments) 13.97 Tulinx 13.98 U-blox 13.99 Vectron International 13.100 VPIsystems 13.101 WiPro 13.102 XCellAir 13.103 Xelic 13.104 Xilinx =20 14 Chapter 14: Mobile Backhaul & Fronthaul Vendors 14.1 3Roam 14.2 4RF 14.3 Accedian Networks 14.4 Actelis Networks 14.5 Actiontec 14.6 Actus Networks 14.7 ADTRAN 14.8 ADVA Optical Networking 14.9 Advantech Wireless 14.10 ALAXALA Networks 14.11 Albis Technologies 14.12 ALCOMA 14.13 Allied Data Technologies 14.14 Allied Telesis 14.15 Aquantia 14.16 Arris 14.17 Avanti Communications 14.18 Aviat Networks 14.19 AVM 14.20 BLiNQ Networks 14.21 BluWan 14.22 BridgeWave Communications 14.23 BTI Systems 14.24 CableFree Solutions 14.25 Calix 14.26 Cambium Networks 14.27 Canoga Perkins 14.28 Carlson Wireless Technologies 14.29 CBNL (Cambridge Broadband Networks Ltd.) 14.30 CCS (Cambridge Communication Systems) 14.31 Ceragon 14.32 Cielo Networks 14.33 Ciena Corporation 14.34 Comtrend 14.35 Corecess 14.36 DASAN Networks 14.37 DragonWave 14.38 E-Band Communications (Moseley Associates) 14.39 E-Blink 14.40 ECI Telecom 14.41 Elva-1 14.42 Exalt Communications 14.43 Extreme Networks 14.44 FastBack Networks 14.45 Fiberhome Technologies 14.46 FibroLan 14.47 Genmix Technology 14.48 Gilat Satellite Networks 14.49 HFR 14.50 Huahuan 14.51 Hughes Network Systems 14.52 HXI 14.53 iDirect 14.54 Intracom Telecom 14.55 IPITEK 14.56 Iskratel 14.57 KEYMILE 14.58 LightPointe Communications 14.59 Loea Corporation 14.60 MAX4G 14.61 Microwave Networks 14.62 MIMOtech 14.63 MRV Communications 14.64 Nexcomm Systems 14.65 NexxComm Wireless 14.66 Omnitron Systems 14.67 OneAccess Networks 14.68 Overture Networks 14.69 Polewall 14.70 Positron 14.71 Proxim Wireless Corporation 14.72 RACOM 14.73 RAD Data Communications 14.74 RADWIN 14.75 SAF Tehnika 14.76 SIAE Microelectronics (SIAE Microelectronica) 14.77 Siklu 14.78 SkyFiber 14.79 SMC Networks 14.80 Solectek 14.81 Star Microwave 14.82 Tarana Wireless 14.83 Telco Systems 14.84 Tellabs 14.85 Tellion 14.86 Tellumat 14.87 Telsey 14.88 Tilgin 14.89 Trango Systems 14.90 Transmode 14.91 Ubiquoss 14.92 UTStarcom 14.93 Vubiq Networks 14.94 Wave1 14.95 Wavesight 14.96 Xavi Technologies 14.97 Yamaha Corporation 14.98 Zhone Technologies =20 15 Chapter 15: Global Market Analysis & Forecasts 15.1 Market Definition 15.2 Decomposing the Global Wireless Network Infrastructure Market 15.3 Macrocell RAN & Mobile Core 15.3.1 2G/3G vs. 4G Macrocell RAN & Mobile Core Revenue 15.3.2 Macrocell RAN & Mobile Core Revenue by Region 15.4 Macrocell RAN Submarket 15.4.1 Macrocell RAN Revenue 15.4.2 Macrocell RAN Base Station Shipments 15.4.3 Segmentation by Infrastructure Component 15.4.4 Segmentation by Region 15.4.5 Segmentation by Technology 15.4.6 Base Station Segmentation by Region 15.4.7 Base Station Segmentation by Technology 15.4.8 GSM Base Station Shipments & Revenue 15.4.9 CDMA2000/EV-DO Base Station Shipments & Revenue 15.4.10 TD-SCDMA Base Station Shipments & Revenue 15.4.11 W-CDMA/HSPA Base Station Shipments & Revenue 15.4.12 LTE FDD Base Station Shipments & Revenue 15.4.13 TD-LTE Base Station Shipments & Revenue 15.4.14 WiMAX Base Station Shipments & Revenue 15.4.15 Base Station Controller Segmentation by Region 15.4.16 Base Station Controller Segmentation by Technology 15.4.17 GSM Base Station Controller Revenue 15.4.18 CDMA2000 Base Station Controller Revenue 15.4.19 TD-SCDMA Base Station Controller Revenue 15.4.20 W-CDMA Base Station Controller Revenue 15.5 Mobile Core Submarket 15.5.1 Segmentation by Region 15.5.2 Segmentation by Technology 15.5.3 3G Packet Core Submarket 15.5.4 WiMAX ASN & CSN Submarket 15.5.5 EPC Submarket 15.6 HLR (Home Location Register) Submarket 15.6.1 Segmentation by Region 15.7 MSS (Mobile Switching Subsystem) Submarket 15.7.1 Segmentation by Region 15.7.2 Segmentation by Submarket 15.7.3 Mobile Switching Center 15.7.4 Mobile Soft Switch 15.8 Small Cell RAN Submarket 15.8.1 Small Cell Revenue 15.8.2 Small Cell Unit Shipments 15.8.3 Segmentation by Region 15.8.4 Segmentation by Air Interface Technology 15.8.5 GSM/W-CDMA/HSPA Small Cell Unit Shipments & Revenue 15.8.6 CDMA2000/EV-DO Small Cell Unit Shipments & Revenue 15.8.7 LTE FDD Small Cell Unit Shipments & Revenue 15.8.8 TD-LTE Small Cell Unit Shipments & Revenue 15.8.9 WiMAX Small Cell Unit Shipments & Revenue 15.8.10 Segmentation by Cell Size 15.8.11 Microcell Unit Shipments & Revenue 15.8.12 Picocell Unit Shipments & Revenue 15.8.13 Femtocell Unit Shipments & Revenue 15.9 C-RAN Submarket 15.9.1 C-RAN Revenue 15.9.2 Segmentation by Region 15.9.3 Segmentation by Submarket 15.9.4 RRH (Remote Radio Head) Unit Shipments & Revenue 15.9.5 C-RAN Small Cell Unit Shipments & Revenue 15.9.6 C-RAN BBU (Baseband Unit) Revenue 15.9.7 Mobile Fronthaul Revenue 15.10 DAS Submarket 15.10.1 DAS Revenue 15.10.2 DAS Node Unit Shipments 15.10.3 Segmentation by Region 15.10.4 Indoor vs. Outdoor Segmentation 15.10.5 Indoor DAS Node Unit Shipments & Revenue 15.10.6 Outdoor DAS Node Unit Shipments & Revenue 15.11 Carrier WiFi Submarket 15.11.1 Carrier WiFi Revenue 15.11.2 Carrier WiFi Unit Shipments 15.11.3 Segmentation by Region 15.11.4 Segmentation by Equipment Type 15.11.5 Carrier WiFi Access Point Unit Shipments & Revenue 15.11.6 Carrier WiFi Access Point Controller Unit Shipments & Revenue 15.11.7 Segmentation by Integration Approach 15.11.8 Managed WiFi Offload Access Point Unit Shipments & Revenue 15.11.9 Unmanaged =91Open Access=92 WiFi Access Point Unit Shipments & Reve= nue 15.12 Macrocell Backhaul Submarket 15.12.1 Segmentation by Region 15.12.2 Segmentation by Technology 15.12.3 ATM 15.12.4 Coaxial Cable 15.12.5 DSL 15.12.6 Ethernet over Copper 15.12.7 Ethernet over Fiber 15.12.8 Microwave Radio 15.12.9 PDH 15.12.10 PON 15.12.11 Satellite 15.12.12 SONET, SDH & WDM 15.12.13 WiMAX 15.13 Small Cell Backhaul Submarket 15.13.1 Segmentation by Region 15.13.2 Segmentation by Technology 15.13.3 Ethernet over Copper 15.13.4 Ethernet over Fiber 15.13.5 DSL 15.13.6 NLOS Microwave (Below 6 GHz) 15.13.7 PTP Microwave (6-60 GHz) 15.13.8 PTMP Microwave (6-60 GHz) 15.13.9 Millimeter Wave (unlicensed 60 GHz) 15.13.10 Millimeter Wave (licensed 71-76, 81-86 GHz) 15.13.11 Satellite =20 16 Chapter 16: Regional Market Analysis & Forecasts 16.1 Asia Pacific 16.1.1 Macrocell RAN 16.1.2 Macrocell RAN Base Stations 16.1.3 GSM Base Stations 16.1.4 CDMA2000/EV-DO Base Stations 16.1.5 TD-SCDMA Base Stations 16.1.6 W-CDMA/HSPA Base Stations 16.1.7 LTE FDD Base Stations 16.1.8 TD-LTE Base Stations 16.1.9 WiMAX Base Stations 16.1.10 Base Station Controller 16.1.11 GSM Base Station Controller 16.1.12 CDMA2000 Base Station Controller 16.1.13 TD-SCDMA Base Station Controller Revenue 16.1.14 W-CDMA Base Station Controller Revenue 16.1.15 Mobile Core 16.1.16 3G Packet Core 16.1.17 WiMAX ASN & CSN 16.1.18 EPC 16.1.19 HLR 16.1.20 MSS 16.1.21 Small Cell RAN 16.1.22 C-RAN 16.1.23 RRH 16.1.24 C-RAN Small Cells 16.1.25 C-RAN BBU 16.1.26 Mobile Fronthaul 16.1.27 DAS 16.1.28 Carrier WiFi 16.1.29 Macrocell Backhaul 16.1.30 Small Cell Backhaul 16.2 Eastern Europe 16.2.1 Macrocell RAN 16.2.2 Macrocell RAN Base Stations 16.2.3 GSM Base Stations 16.2.4 CDMA2000/EV-DO Base Stations 16.2.5 W-CDMA/HSPA Base Stations 16.2.6 LTE FDD Base Stations 16.2.7 TD-LTE Base Stations 16.2.8 WiMAX Base Stations 16.2.9 Base Station Controller 16.2.11 CDMA2000 Base Station Controller 16.2.12 W-CDMA Base Station Controller Revenue 16.2.13 Mobile Core 16.2.14 3G Packet Core 16.2.15 WiMAX ASN & CSN 16.2.16 EPC 16.2.17 HLR 16.2.18 MSS 16.2.19 Small Cell RAN 16.2.20 C-RAN 16.2.21 RRH 16.2.22 C-RAN Small Cells 16.2.23 C-RAN BBU 16.2.24 Mobile Fronthaul 16.2.25 DAS 16.2.26 Carrier WiFi 16.2.27 Macrocell Backhaul 16.2.28 Small Cell Backhaul 16.3 Latin & Central America 16.3.1 Macrocell RAN 16.3.2 Macrocell RAN Base Stations 16.3.3 GSM Base Stations 16.3.4 CDMA2000/EV-DO Base Stations 16.3.5 W-CDMA/HSPA Base Stations 16.3.6 LTE FDD Base Stations 16.3.7 TD-LTE Base Stations 16.3.8 WiMAX Base Stations 16.3.9 Base Station Controller 16.3.10 GSM Base Station Controller 16.3.11 CDMA2000 Base Station Controller 16.3.12 W-CDMA Base Station Controller Revenue 16.3.13 Mobile Core 16.3.14 3G Packet Core 16.3.15 WiMAX ASN & CSN 16.3.16 EPC 16.3.17 HLR 16.3.18 MSS 16.3.19 Small Cell RAN 16.3.20 C-RAN 16.3.21 RRH 16.3.22 C-RAN Small Cells 16.3.23 C-RAN BBU 16.3.24 Mobile Fronthaul 16.3.25 DAS 16.3.26 Carrier WiFi 16.3.27 Macrocell Backhaul 16.3.28 Small Cell Backhaul 16.4 Middle East & Africa 16.4.1 Macrocell RAN 16.4.2 Macrocell RAN Base Stations 16.4.3 GSM Base Stations 16.4.4 CDMA2000/EV-DO Base Stations 16.4.5 W-CDMA/HSPA Base Stations 16.4.6 LTE FDD Base Stations 16.4.7 TD-LTE Base Stations 16.4.8 WiMAX Base Stations 16.4.9 Base Station Controller 16.4.10 GSM Base Station Controller 16.4.11 CDMA2000 Base Station Controller 16.4.12 W-CDMA Base Station Controller Revenue 16.4.13 Mobile Core 16.4.14 3G Packet Core 16.4.15 WiMAX ASN & CSN 16.4.16 EPC 16.4.17 HLR 16.4.18 MSS 16.4.19 Small Cell RAN 16.4.20 C-RAN 16.4.21 RRH 16.4.22 C-RAN Small Cells 16.4.23 C-RAN BBU 16.4.24 Mobile Fronthaul 16.4.25 DAS 16.4.26 Carrier WiFi 16.4.27 Macrocell Backhaul 16.4.28 Small Cell Backhaul 16.5 North America 16.5.1 Macrocell RAN 16.5.2 Macrocell RAN Base Stations 16.5.3 GSM Base Stations 16.5.4 CDMA2000/EV-DO Base Stations 16.5.5 W-CDMA/HSPA Base Stations 16.5.6 LTE FDD Base Stations 16.5.7 TD-LTE Base Stations 16.5.8 WiMAX Base Stations 16.5.9 Base Station Controller 16.5.10 GSM Base Station Controller 16.5.11 CDMA2000 Base Station Controller 16.5.12 W-CDMA Base Station Controller Revenue 16.5.13 Mobile Core 16.5.14 3G Packet Core 16.5.15 WiMAX ASN & CSN 16.5.16 EPC 16.5.17 HLR 16.5.18 MSS 16.5.19 Small Cell RAN 16.5.20 C-RAN 16.5.21 RRH 16.5.22 C-RAN Small Cells 16.5.23 C-RAN BBU 16.5.24 Mobile Fronthaul 16.5.25 DAS 16.5.26 Carrier WiFi 16.5.27 Macrocell Backhaul 16.5.28 Small Cell Backhaul 16.6 Western Europe 16.6.1 Macrocell RAN 16.6.2 Macrocell RAN Base Stations 16.6.3 GSM Base Stations 16.6.4 CDMA2000/EV-DO Base Stations 16.6.5 W-CDMA/HSPA Base Stations 16.6.6 LTE FDD Base Stations 16.6.7 TD-LTE Base Stations 16.6.8 WiMAX Base Stations 16.6.9 Base Station Controller 16.6.10 GSM Base Station Controller 16.6.11 CDMA2000 Base Station Controller 16.6.12 W-CDMA Base Station Controller Revenue 16.6.13 Mobile Core 16.6.14 3G Packet Core 16.6.15 WiMAX ASN & CSN 16.6.16 EPC 16.6.17 HLR 16.6.18 MSS 16.6.19 Small Cell RAN 16.6.20 C-RAN 16.6.21 RRH 16.6.22 C-RAN Small Cells 16.6.23 C-RAN BBU 16.6.24 Mobile Fronthaul 16.6.25 DAS 16.6.26 Carrier WiFi 16.6.27 Macrocell Backhaul 16.6.28 Small Cell Backhaul =20 17 Chapter 17: The Emerging 5G Ecosystem & Technology 17.1 What is 5G=3F 17.2 5G Requirements 17.2.1 Data Volume 17.2.2 Throughput 17.2.3 Response Time & Latency 17.2.4 Device Density 17.2.5 Availability & Coverage 17.2.6 Battery Life 17.2.7 Energy Saving & Cost Reduction 17.3 5G Market Drivers 17.3.1 Why the Need for a 5G Standard=3F 17.3.2 Improving Spectrum Utilization 17.3.3 Advances in Air Interface Transmission Schemes 17.3.4 Gigabit Wireless Connectivity: Supporting Future Services 17.3.5 Moving Towards IoT (Internet of Things): Increasing Device Density 17.3.6 Towards a Flatter Network Architecture 17.4 Challenges & Inhibitors to 5G 17.4.1 Skepticism 17.4.2 Standardization Challenges: Too Many Stakeholders 17.4.3 Spectrum Regulation & Complexities 17.4.4 Massive MIMO, Beamforming & Antenna Technology Issues 17.4.5 Higher Frequencies Mean New Infrastructure 17.4.6 Complex Performance Requirements 17.4.7 Energy Efficiency & Technology Scaling 17.5.1 Extreme Bandwidth Applications: Video, Internet Gaming & Augmented R= eality 17.5.2 MTC/M2M, IoT & Ubiquitous Communications 17.5.2.1 Short-burst Traffic 17.5.3 Vertical Industries & Safety Critical Domains 17.5.3.1 Automotive 17.5.3.2 Energy & Smart Grids 17.5.3.3 Transport & Logistics 17.5.3.4 Healthcare 17.5.3.5 Smart Cities 17.5.3.6 Public Safety 17.5.3.7 Fitness & Sports 17.6 Key Technologies & Concepts 17.6.1 Air Interface: Waveform Options 17.6.2 Massive MIMO 17.6.3 Phased Array Antennas 17.6.4 Beamforming 17.6.5 D2D (Device to Device) Communications 17.6.6 Self-Backhauling & Mesh Networking 17.6.7 Cognitive Radio & Spectrum Sensing 17.6.8 LSA (Licensed Shared Access) 17.6.9 Spectrum Aggregation 17.6.10 Integration of VLC (Visible Light Communication) 17.7 Complimentary Technologies 17.7.1 NFV & SDN 17.7.2 HetNet & C-RAN Architecture 17.7.2.1 Will C-RAN be the Default 5G Network Architecture=3F 17.7.3 Drones & Satellites 17.7.3.1 Satellite Integration in 5G Networks 17.7.3.2 Google and Facebook=92s Drone Ambitions 17.7.3.3 Interest from Wireless Carriers =20 18 Chapter 18: 5G Investments & Future Forecast 18.1 How Much is Being Invested in 5G=3F 18.2 Global 5G Subscriptions: 2020 - 2025 18.2.1 Asia Pacific 5G Subscriptions: 2020 =96 2025 18.2.2 Eastern Europe 5G Subscriptions: 2020 =96 2025 18.2.3 Latin & Central America 5G Subscriptions: 2020 =96 2025 18.2.4 Middle East & Africa 5G Subscriptions: 2020 =96 2025 18.2.5 North America 5G Subscriptions: 2020 =96 2025 18.2.6 Western Europe 5G Subscriptions: 2020 =96 2025 =20 19 Chapter 19: 5G Spectrum Assessment 19.1 Spectrum Options for 5G 19.2 Sub-1 GHz 19.3 3-4 GHz 19.4 5 GHz 19.5 15 GHz 19.6 28 GHz 19.7 60/70/80 GHz 19.8 Higher Bands =20 20 Chapter 20: 5G Standardization & Research Initiatives 20.1 ITU-R (ITU Radiocommunications Sector) 20.2 3GPP (Third Generation Partnership Project) 20.3 GSMA (GSM Association) 20.4 NGMN (Next Generation Mobile Networks) Alliance 20.5 TIA (Telecommunications Industry Association) 20.6 European Commission Initiatives 20.6.1 METIS 20.6.2 5GPPP (5G Public-Private Partnership) 20.6.3 5GNOW (5th Generation Non-Orthogonal Waveforms for Asynchronous Sign= aling) 20.7 National Government Initiatives 20.7.1 Korea=92s 5G Forum 20.7.2 Japan=92s ARIB 20B AH (2020 and Beyond AdHoc) 20.7.3 China=92s IMT-2020 20.7.4 China=92s 863-5G Project 20.8 Academic Initiatives 20.8.1 5GIC (5G Innovation Center, University of Surrey) 20.8.2 NYU WIRELESS (New York University) =20 21 Chapter 21: 5G Vendor Demonstrations, Commitments & Strategies 21.1 Alcatel-Lucent 21.2 Ericsson 21.3 Fujitsu 21.4 Huawei 21.5 Intel Corporation 21.6 NEC Corporation 21.7 Nokia Networks 21.8 Qualcomm 21.9 Samsung Electronics 21.10 ZTE =20 22 Chapter 22: Conclusion & Strategic Recommendations 22.1 Is Virtualization a Threat to the Wireless Network Infrastructure Mark= et=3F 22.2 Enterprise RAN Deployments Gain Traction 22.3 Vendor Specific HetNet Offerings: Disrupting Traditional Network Archi= tectures 22.4 Moving Towards C-RAN Architecture 22.4.1 Global Deployment Prospects 22.4.2 From Centralized to Cloud RAN: Virtualizing the RAN 22.4.3 Fronthaul Transport: Are Cheaper Options Emerging=3F 22.4.4 Interface Options: Is Ethernet a Feasible Solution=3F 22.4.5 Distributing Baseband Intelligence: Towards C-RAN Small Cells 22.5 Standardization Driving RAN & WiFi Integration 22.6 Outlook for LTE-Advanced 22.6.1 Upgrades for Capacity & Coverage Boosts 22.6.2 Moving Beyond Carrier Aggregation 22.6.3 Service Revenue Prospects 22.7 TD-LTE Deployments Gain Traction 22.7.1 China Mobile: Starting an Era of Large-Scale TD-LTE Deployments 22.7.2 Offload Opportunities with TD-LTE Small Cells 22.7.3 Capitalizing on Tight Interworking Between TDD and FDD 22.8 Outlook for VoLTE & RCS 22.9 Bringing LTE-Broadcast & eMBMS into Focus 22.10 Outlook for LTE-U 22.11 Smart Cities: Wireless Infrastructure Vendors to Lead the Way 22.12 Wireless Incumbents Could Face Cloud Rivals: Thanks to SDN & NFV 22.13 Spectrum: Driving Continued Acquisitions by Incumbent Operators 22.14 Operators Will Strive for Agility 22.15 Vertical Market Opportunities 22.16 SWOT Analysis 22.17 Strategic Recommendations 22.17.1 Recommendations for Operators 22.17.2 Recommendations for Infrastructure Vendors =20 List of Figures Figure 1: Subsegments of the Wireless Network Infrastructure Market Figure 2: Global GSM Networks: 1991 - 2014 Figure 3: Global GSM Subscriptions: 2010 =96 2020 (Millions) Figure 4: Global W-CDMA & HSPA Subscriptions: 2010 =96 2020 (Millions) Figure 5: Global W-CDMA & HSPA Subscriptions (%): 2014 Figure 6: Global LTE Commercial Network Launches: 2009 - 2014 Figure 7: Macrocell RAN Component Segmentation by Technology Figure 8: HetNet RAN Component Segmentation by Technology Figure 9: Global VoLTE User Forecast: 2013 =96 2020 (Millions) Figure 10: Mobile Backhaul Segmentation by Technology Figure 11: Global Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 12: LTE Penetration by Region: 2010 =96 2020 (%) Figure 13: LTE Penetration in Asia Pacific: 2010 =96 2020 (%) Figure 14: LTE Penetration in Eastern Europe: 2010 =96 2020 (%) Figure 15: LTE Penetration in Latin & Central America: 2010 =96 2020 (%) Figure 16: LTE Penetration in Middle East & Africa: 2010 =96 2020 (%) Figure 17: LTE Penetration in North America: 2010 =96 2020 (%) Figure 18: LTE Penetration in Western Europe: 2010 =96 2020 (%) Figure 19: Global Smartphone & Tablet Shipments: 2010 =96 2020 (Millions of= Units) Figure 20: Global Smartphone vs. Feature & Basic Phone Shipments: 2010 =96 = 2020 (Millions of Units) Figure 21: Global Mobile Broadband & Voice Service Revenue Compared: 2010 = =96 2020 ($ Billion) Figure 22: Annual Global Throughput of Mobile Network Data Traffic by Regio= n: 2010 =96 2020 (Exabytes) Figure 23: Annual Global Throughput of Mobile Network Data Traffic by Acces= s Network Type: 2010 =96 2020 (Exabytes) Figure 24: Private Public Safety LTE Infrastructure Spending: 2010 =96 2020= ($ Million) Figure 25: Average Annual Traffic & Revenue Growth Compared for a Tier 1 Op= erator: 2010 =96 2014 (%) Figure 26: TCO Comparison for 2G, 3G, LTE and HetNet Deployments ($ per GB) Figure 27: Strategic Options for Operators Figure 28: Global Mobile Network CapEx: 2010 =96 2020 ($ Billion) Figure 29: Mobile Network CapEx by Region: 2010 =96 2020 ($ Billion) Figure 30: Mobile Network CapEx by Operator ($ Billion) Figure 31: China Mobile CapEx Commitments ($ Billion) Figure 32: China Unicom CapEx Commitments ($ Billion) Figure 31: AT&T Mobility CapEx Commitments ($ Billion) Figure 31: Vodafone CapEx Commitments ($ Billion) Figure 31: Verizon Wireless CapEx Commitments ($ Billion) Figure 31: China Telecom CapEx Commitments ($ Billion) Figure 31: NTT DoCoMo CapEx Commitments ($ Billion) Figure 31: Sprint CapEx Commitments ($ Billion) Figure 31: SoftBank CapEx Commitments ($ Billion) Figure 31: T-Mobile US CapEx Commitments ($ Billion) Figure 31: KDDI CapEx Commitments ($ Billion) Figure 31: DT (Deutsche Telekom) CapEx Commitments ($ Billion) Figure 31: MTS (Mobile TeleSystems) CapEx Commitments ($ Billion) Figure 31: Orange CapEx Commitments ($ Billion) Figure 31: Telenor Group CapEx Commitments ($ Billion) Figure 31: SK Telecom CapEx Commitments ($ Billion) Figure 31: Vivo CapEx Commitments ($ Billion) Figure 31: TIM Brazil CapEx Commitments ($ Billion) Figure 31: LG Uplus CapEx Commitments ($ Billion) Figure 31: Telkomsel CapEx Commitments ($ Billion) Figure 31: Megafon CapEx Commitments ($ Billion) Figure 31: Bharti Airtel CapEx Commitments ($ Billion) Figure 31: Movistar Venezuela CapEx Commitments ($ Billion) Figure 31: TIM (Telecom Italia Mobile) CapEx Commitments ($ Billion) Figure 31: Vimpelcom CapEx Commitments ($ Billion) Figure 41: Asia Pacific Mobile Network CapEx: 2010 =96 2020 ($ Billion) Figure 42: Eastern Europe Mobile Network CapEx: 2010 =96 2020 ($ Billion) Figure 43: Latin & Central America Mobile Network CapEx: 2010 =96 2020 ($ B= illion) Figure 44: Middle East & Africa Mobile Network CapEx: 2010 =96 2020 ($ Bill= ion) Figure 45: North America Mobile Network CapEx: 2010 =96 2020 ($ Billion) Figure 46: Western Europe Mobile Network CapEx: 2010 =96 2020 ($ Billion) Figure 62: Global Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 63: Global Mobile Network Service Revenue: 2010 =96 2020 ($ Billion) Figure 64: Global Mobile Network Subscriptions by Technology: 2010 =96 2020= (Millions) Figure 65: Global Mobile Network Service Revenue by Technology: 2010 =96 20= 20 ($ Billion) Figure 66: GSM Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 67: GSM Mobile Network Service Revenue: 2010 =96 2020 ($ Billion) Figure 68: iDEN Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 69: iDEN Mobile Network Service Revenue: 2010 =96 2020 ($ Billion) Figure 70: CDMA Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 71: CDMA Mobile Network Service Revenue: 2010 =96 2020 ($ Billion) Figure 72: W-CDMA/HSPA Mobile Network Subscriptions: 2010 =96 2020 (Million= s) Figure 73: W-CDMA/HSPA Mobile Network Service Revenue: 2010 =96 2020 ($ Bil= lion) Figure 74: TD-SCDMA Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 75: TD-SCDMA Mobile Network Service Revenue: 2010 =96 2020 ($ Billio= n) Figure 76: FDD LTE Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 77: FDD LTE Mobile Network Service Revenue: 2010 =96 2020 ($ Billion) Figure 78: TD-LTE Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 79: TD-LTE Mobile Network Service Revenue: 2010 =96 2020 ($ Billion) Figure 80: WiMAX Mobile Network Subscriptions: 2010 =96 2020 (Millions) Figure 81: WiMAX Mobile Network Service Revenue: 2010 =96 2020 ($ Billion) Figure 82: Mobile Network Subscriptions by Region: 2010 =96 2020 (Millions) Figure 83: Mobile Network Service Revenue by Region: 2010 =96 2020 ($ Billi= on) Figure 84: Mobile Network Subscriptions by Service Type: 2010 =96 2020 (Mil= lions) Figure 85: Mobile Network Voice Service Revenue: 2010 =96 2020 (Millions) Figure 86: Mobile Network SMS/MMS Service Revenue: 2010 =96 2020 (Millions) Figure 87: Mobile Network Broadband Service Revenue: 2010 =96 2020 (Million= s) Figure 88: Asia Pacific Mobile Network Subscriptions: 2010 =96 2020 (Millio= ns) Figure 89: Asia Pacific Mobile Network Service Revenue: 2010 =96 2020 ($ Bi= llion) Figure 90: Eastern Europe Mobile Network Subscriptions: 2010 =96 2020 (Mill= ions) Figure 91: Eastern Europe Mobile Network Service Revenue: 2010 =96 2020 ($ = Billion) Figure 92: Latin & Central America Mobile Network Subscriptions: 2010 =96 2= 020 (Millions) Figure 93: Latin & Central America Mobile Network Service Revenue: 2010 =96= 2020 ($ Billion) Figure 94: Middle East & Africa Mobile Network Subscriptions: 2010 =96 2020= (Millions) Figure 95: Middle East & Africa Mobile Network Service Revenue: 2010 =96 20= 20 ($ Billion) Figure 96: North America Mobile Network Subscriptions: 2010 =96 2020 (Milli= ons) Figure 97: North America Mobile Network Service Revenue: 2010 =96 2020 ($ B= illion) Figure 98: Western Europe Mobile Network Subscriptions: 2010 =96 2020 (Mill= ions) Figure 99: Western Europe Mobile Network Service Revenue: 2010 =96 2020 ($ = Billion) Figure 100: RRH & FTTA Design Figure 101: Legacy RAN to C-RAN Architectural Migration Figure 102: The Wireless Network Infrastructure Industry Roadmap: 2010 - 20= 20 Figure 103: The Wireless Network Infrastructure Value Chain Figure 104: List of LTE Trials & Deployments Figure 105: Macrocell RAN Infrastructure Vendor Share: 2014 (%) Figure 106: Mobile Core Vendor Share: 2014 (%) Figure 107: LTE Infrastructure Vendor Share: 2014 (%) Figure 108: WiMAX Infrastructure Vendor Share: 2014 (%) Figure 109: 2G & 3G Infrastructure Vendor Share: 2014 (%) Figure 110: Small Cell RAN Infrastructure Vendor Share: 2014 (%) Figure 111: C-RAN Vendor Share: 2014 (%) Figure 112: DAS Vendor Share: 2014 (%) Figure 113: Carrier WiFi Infrastructure Vendor Share: 2014 (%) Figure 114: Mobile Backhaul Infrastructure Vendor Share: 2014 (%) Figure 115: Global Wireless Network Infrastructure Revenue by Submarket: 20= 10 =96 2020 ($ Million) Figure 116: Global Wireless Network Infrastructure Market Share by Submarke= t: 2015 (%) Figure 117: Global Wireless Network Infrastructure Market Share by Submarke= t: 2020 (%) Figure 118: Global Macrocell RAN & Mobile Core Revenue: 2010 =96 2020 ($ Mi= llion) Figure 119: Global 2G/3G vs. 4G Macrocell RAN & Mobile Core Revenue: 2010 -= 2020 ($ Million) Figure 120: Macrocell RAN & Mobile Core Revenue by Region: 2010 =96 2020 ($= Million) Figure 121: Global Macrocell RAN Revenue: 2010 =96 2020 ($ Million) Figure 122: Global Macrocell RAN Base Station Shipments: 2010 =96 2020 Figure 123: Global Macrocell RAN Revenue by Infrastructure Component: 2010 = - 2020 ($ Million) Figure 124: Macrocell RAN Revenue by Region: 2010 - 2020 ($ Million) Figure 125: Global Macrocell RAN Revenue by Technology: 2010 - 2020 ($ Mill= ion) Figure 126: Macrocell RAN Base Station Shipments by Region: 2010 - 2020 Figure 127: Macrocell RAN Base Station Shipment Revenue by Region: 2010 - 2= 020 ($ Million) Figure 128: Global Macrocell RAN Base Station Shipments by Technology: 2010= - 2020 Figure 129: Global Macrocell RAN Base Station Shipment Revenue by Technolog= y: 2010 - 2020 ($ Million) Figure 130: GSM Macrocell Base Station Shipments by Region: 2010 - 2020 Figure 131: GSM Macrocell RAN Base Station Shipment Revenue by Region: 2010= - 2020 ($ Million) Figure 132: CDMA2000/EV-DO Macrocell Base Station Shipments by Region: 2010= - 2020 Figure 133: CDMA2000/EV-DO Macrocell RAN Base Station Shipment Revenue by R= egion: 2010 - 2020 ($ Million) Figure 134: TD-SCDMA Macrocell Base Station Shipments by Region: 2010 - 2020 Figure 135: TD-SCDMA Macrocell RAN Base Station Shipment Revenue by Region:= 2010 - 2020 ($ Million) Figure 136: W-CDMA/HSPA Macrocell Base Station Shipments by Region: 2010 - = 2020 Figure 137: W-CDMA/HSPA Macrocell RAN Base Station Shipment Revenue by Regi= on: 2010 - 2020 ($ Million) Figure 138: LTE FDD Macrocell Base Station Shipments by Region: 2010 - 2020 Figure 139: LTE FDD Macrocell RAN Base Station Shipment Revenue by Region: = 2010 - 2020 ($ Million) Figure 140: TD-LTE Macrocell Base Station Shipments by Region: 2010 - 2020 Figure 141: TD-LTE Macrocell RAN Base Station Shipment Revenue by Region: 2= 010 - 2020 ($ Million) Figure 142: WiMAX Macrocell Base Station Shipments by Region: 2010 - 2020 Figure 143: WiMAX Macrocell RAN Base Station Shipment Revenue by Region: 20= 10 - 2020 ($ Million) Figure 144: Macrocell Base Station Controller Revenue by Region: 2010 - 202= 0 ($ Million) Figure 145: Global Macrocell Base Station Controller Revenue by Technology:= 2010 - 2020 ($ Million) Figure 146: GSM Base Station Controller Revenue by Region: 2010 - 2020 ($ M= illion) Figure 147: CDMA2000 Base Station Controller Revenue by Region: 2010 - 2020= ($ Million) Figure 148: TD-SCDMA Base Station Controller Revenue by Region: 2010 - 2020= ($ Million) Figure 149: W-CDMA Base Station Controller Revenue by Region: 2010 - 2020 (= $ Million) Figure 150: Global Mobile Core Revenue: 2010 =96 2020 ($ Million) Figure 151: Mobile Core Revenue by Region: 2010 - 2020 ($ Million) Figure 152: Global Mobile Core Revenue by Technology: 2010 - 2020 ($ Millio= n) Figure 153: Global 3G Packet Core Revenue by Submarket: 2010 - 2020 ($ Mill= ion) Figure 154: 3G Packet Core Revenue by Region: 2010 - 2020 ($ Million) Figure 155: Global WiMAX ASN & CSN Revenue by Submarket: 2010 - 2020 ($ Mil= lion) Figure 156: WiMAX ASN & CSN Revenue by Region: 2010 - 2020 ($ Million) Figure 157: EPC Revenue by Region: 2010 - 2020 ($ Million) Figure 158: Global HLR Revenue: 2010 =96 2020 ($ Million) Figure 159: HLR Revenue by Region: 2010 - 2020 ($ Million) Figure 160: Global MSS Revenue: 2010 =96 2020 ($ Million) Figure 161: MSS Revenue by Region: 2010 - 2020 ($ Million) Figure 162: Global MSS Revenue by Submarket: 2010 - 2020 ($ Million) Figure 163: Global Mobile Switching Center Revenue: 2010 - 2020 ($ Million) Figure 164: Global Mobile Soft Switch Revenue: 2010 - 2020 ($ Million) Figure 165: Global Small Cell Unit Shipment Revenue: 2010 =96 2020 ($ Milli= on) Figure 166: Global Small Cell Unit Shipments: 2010 =96 2020 (Thousands of U= nits) Figure 167: Small Cell Unit Shipments by Region: 2010 - 2020 (Thousands of = Units) Figure 168: Small Cell Unit Shipment Revenue by Region: 2010 - 2020 ($ Mill= ion) Figure 169: Global Small Cell Unit Shipments by Air Interface Technology: 2= 010 - 2020 (Thousands of Units) Figure 170: Global Small Cell Unit Shipment Revenue by Air Interface Techno= logy: 2010 - 2020 ($ Million) Figure 171: Global GSM/W-CDMA/HSPA Small Cell Unit Shipments: 2010 - 2020 (= Thousands of Units) Figure 172: Global GSM/W-CDMA/HSPA Small Cell Unit Shipment Revenue: 2010 -= 2020 ($ Million) Figure 173: Global CDMA2000/EV-DO Small Cell Unit Shipments: 2010 - 2020 (T= housands of Units) Figure 174: Global CDMA2000/EV-DO Small Cell Unit Shipment Revenue: 2010 - = 2020 ($ Million) Figure 175: Global LTE FDD Small Cell Unit Shipments: 2010 - 2020 (Thousand= s of Units) Figure 176: Global LTE FDD Small Cell Unit Shipment Revenue: 2010 - 2020 ($= Million) Figure 177: Global TD-LTE Small Cell Unit Shipments: 2010 - 2020 (Thousands= of Units) Figure 178: Global TD-LTE Small Cell Unit Shipment Revenue: 2010 - 2020 ($ = Million) Figure 179: Global WiMAX Small Cell Unit Shipments: 2010 - 2020 (Thousands = of Units) Figure 180: Global WiMAX Small Cell Unit Shipment Revenue: 2010 - 2020 ($ M= illion) Figure 181: Global Small Cell Unit Shipments by Cell Size: 2010 - 2020 (Tho= usands of Units) Figure 182: Global Small Cell Unit Shipment Revenue by Cell Size: 2010 - 20= 20 ($ Million) Figure 183: Global Microcell Unit Shipments: 2010 - 2020 (Thousands of Unit= s) Figure 184: Global Microcell Unit Shipment Revenue: 2010 - 2020 ($ Million) Figure 185: Global Picocell Unit Shipments: 2010 - 2020 (Thousands of Units) Figure 186: Global Picocell Unit Shipment Revenue: 2010 - 2020 ($ Million) Figure 187: Global Femtocell Unit Shipments: 2010 - 2020 (Thousands of Unit= s) Figure 188: Global Femtocell Unit Shipment Revenue: 2010 - 2020 ($ Million) Figure 189: Global C-RAN Revenue: 2010 =96 2020 ($ Million) Figure 190: C-RAN Revenue by Region: 2010 - 2020 ($ Million) Figure 191: Global C-RAN Revenue by Submarket: 2010 - 2020 ($ Million) Figure 192: Global RRH Unit Shipments: 2010 - 2020 (Thousands of Units) Figure 193: Global RRH Unit Shipment Revenue: 2010 - 2020 ($ Million) Figure 194: Global C-RAN Small Cell Unit Shipments: 2010 - 2020 (Thousands = of Units) Figure 195: Global C-RAN Small Cell Unit Shipment Revenue: 2010 - 2020 ($ M= illion) Figure 196: Global C-RAN BBU Revenue: 2010 - 2020 ($ Million) Figure 197: Global Mobile Fronthaul Revenue: 2010 - 2020 ($ Million) Figure 198: Global DAS Node Unit Shipments: 2010 - 2020 (Thousands of Units) Figure 199: Global DAS Node Unit Shipment Revenue: 2010 - 2020 ($ Million) Figure 200: DAS Node Unit Shipments by Region: 2010 - 2020 (Thousands of Un= its) Figure 201: DAS Node Unit Shipment Revenue by Region: 2010 - 2020 ($ Millio= n) Figure 202: DAS Node Unit Shipments by Deployment Model: 2010 - 2020 (Thous= ands of Units) Figure 203: DAS Node Unit Shipment Revenue by Deployment Model: 2010 - 2020= ($ Million) Figure 204: Indoor DAS Node Unit Shipments: 2010 - 2020 (Thousands of Units) Figure 205: Indoor DAS Node Unit Shipment Revenue: 2010 - 2020 ($ Million) Figure 206: Outdoor DAS Node Unit Shipments: 2010 - 2020 (Thousands of Unit= s) Figure 207: Outdoor DAS Node Unit Shipment Revenue: 2010 - 2020 ($ Million) Figure 208: Global Carrier WiFi Unit Shipment Revenue: 2010 =96 2020 ($ Mil= lion) Figure 209: Global Carrier WiFi Unit Shipments: 2010 =96 2020 (Thousands of= Units) Figure 210: Carrier WiFi Unit Shipments by Region: 2010 - 2020 (Thousands o= f Units) Figure 211: Carrier WiFi Unit Shipment Revenue by Region: 2010 - 2020 ($ Mi= llion) Figure 212: Global Carrier WiFi Unit Shipments by Equipment Type: 2010 - 20= 20 (Thousands of Units) Figure 213: Global Carrier WiFi Unit Shipment Revenue by Equipment Type: 20= 10 - 2020 ($ Million) Figure 214: Global Carrier WiFi Access Point Unit Shipments: 2010 - 2020 (T= housands of Units) Figure 215: Global Carrier WiFi Access Point Unit Shipment Revenue: 2010 - = 2020 ($ Million) Figure 216: Global Carrier WiFi Access Point Controller Unit Shipments: 201= 0 - 2020 (Thousands of Units) Figure 217: Global Carrier WiFi Access Point Controller Unit Shipment Reven= ue: 2010 - 2020 ($ Million) Figure 218: Global Carrier WiFi Access Point Unit Shipments by Integration = Approach: 2010 - 2020 (Thousands of Units) Figure 219: Global Carrier WiFi Access Point Unit Shipment Revenue by Integ= ration Approach: 2010 - 2020 ($ Million) Figure 220: Global Managed WiFi Offload Access Point Unit Shipments: 2010 -= 2020 (Thousands of Units) Figure 221: Global Managed WiFi Offload Access Point Unit Shipment Revenue:= 2010 - 2020 ($ Million) Figure 222: Global Unmanaged =91Open Access=92 WiFi Access Point Unit Shipm= ents: 2010 - 2020 (Thousands of Units) Figure 223: Global Unmanaged =91Open Access=92 WiFi Access Point Unit Shipm= ent Revenue: 2010 - 2020 ($ Million) Figure 224: Global Macrocell Backhaul Revenue: 2010 =96 2020 ($ Million) Figure 225: Macrocell Backhaul Revenue by Region: 2010 - 2020 ($ Million) Figure 226: Global Macrocell Backhaul Revenue by Technology: 2010 - 2020 ($= Million) Figure 227: Global ATM Macrocell Backhaul Revenue: 2010 - 2020 ($ Million) Figure 228: Global Coaxial Cable Macrocell Backhaul Revenue: 2010 - 2020 ($= Million) Figure 229: Global DSL Macrocell Backhaul Revenue: 2010 - 2020 ($ Million) Figure 230: Global Ethernet over Copper Macrocell Backhaul Revenue: 2010 - = 2020 ($ Million) Figure 231: Global Ethernet over Fiber Macrocell Backhaul Revenue: 2010 - 2= 020 ($ Million) Figure 232: Global Microwave Radio Macrocell Backhaul Revenue: 2010 - 2020 = ($ Million) Figure 233: Global PDH Macrocell Backhaul Revenue: 2010 - 2020 ($ Million) Figure 234: Global PON Macrocell Backhaul Revenue: 2010 - 2020 ($ Million) Figure 235: Global Satellite Macrocell Backhaul Revenue: 2010 - 2020 ($ Mil= lion) Figure 236: Global SONET, SDH & WDM Macrocell Backhaul Revenue: 2010 - 2020= ($ Million) Figure 237: Global WiMAX Macrocell Backhaul Revenue: 2010 - 2020 ($ Million) Figure 238: Global Small Cell Backhaul Revenue: 2010 =96 2020 ($ Million) Figure 239: Small Cell Backhaul Revenue by Region: 2010 - 2020 ($ Million) Figure 240: Global Small Cell Backhaul Revenue by Technology: 2010 - 2020 (= $ Million) Figure 241: Global Ethernet over Copper Small Cell Backhaul Revenue: 2010 -= 2020 ($ Million) Figure 242: Global Ethernet over Fiber Small Cell Backhaul Revenue: 2010 - = 2020 ($ Million) Figure 243: Global DSL Small Cell Backhaul Revenue: 2010 - 2020 ($ Million) Figure 244: Global NLOS Microwave (Below 6 GHz) Small Cell Backhaul Revenue= : 2010 - 2020 ($ Million) Figure 245: Global PTP Microwave (6-60 GHz) Small Cell Backhaul Revenue: 20= 10 - 2020 ($ Million) Figure 246: Global PTMP Microwave (6-60 GHz) Small Cell Backhaul Revenue: 2= 010 - 2020 ($ Million) Figure 247: Global Millimeter Wave (unlicensed 60 GHz) Small Cell Backhaul = Revenue: 2010 - 2020 ($ Million) Figure 248: Global Millimeter Wave (licensed 71-76, 81-86 GHz) Small Cell B= ackhaul Revenue: 2010 - 2020 ($ Million) Figure 249: Global Satellite Small Cell Backhaul Revenue: 2010 - 2020 ($ Mi= llion) Figure 250: Asia Pacific Macrocell RAN Revenue: 2010 - 2020 ($ Million) Figure 251: Asia Pacific Macrocell RAN Base Station Shipments: 2010 - 2020 Figure 252: Asia Pacific Macrocell RAN Base Station Shipment Revenue: 2010 = - 2020 ($ Million) Figure 253: Asia Pacific GSM Macrocell Base Station Shipments: 2010 - 2020 Figure 254: Asia Pacific GSM Macrocell RAN Base Station Shipment Revenue: 2= 010 - 2020 ($ Million) Figure 255: Asia Pacific CDMA2000/EV-DO Macrocell Base Station Shipments: 2= 010 - 2020 Figure 256: Asia Pacific CDMA2000/EV-DO Macrocell RAN Base Station Shipment= Revenue: 2010 - 2020 ($ Million) Figure 257: Asia Pacific TD-SCDMA Macrocell Base Station Shipments: 2010 - = 2020 Figure 258: Asia Pacific TD-SCDMA Macrocell RAN Base Station Shipment Reven= ue: 2010 - 2020 ($ Million) Figure 259: Asia Pacific W-CDMA/HSPA Macrocell Base Station Shipments: 2010= - 2020 Figure 260: Asia Pacific W-CDMA/HSPA Macrocell RAN Base Station Shipment Re= venue: 2010 - 2020 ($ Million) Figure 261: Asia Pacific LTE FDD Macrocell Base Station Shipments: 2010 - 2= 020 Figure 262: Asia Pacific LTE FDD Macrocell RAN Base Station Shipment Revenu= e: 2010 - 2020 ($ Million) Figure 263: Asia Pacific TD-LTE Macrocell Base Station Shipments: 2010 - 20= 20 Figure 264: Asia Pacific TD-LTE Macrocell RAN Base Station Shipment Revenue= : 2010 - 2020 ($ Million) Figure 265: Asia Pacific WiMAX Macrocell Base Station Shipments: 2010 - 2020 Figure 266: Asia Pacific WiMAX Macrocell RAN Base Station Shipment Revenue:= 2010 - 2020 ($ Million) Figure 267: Asia Pacific Macrocell Base Station Controller Revenue: 2010 - = 2020 ($ Million) Figure 268: Asia Pacific GSM Base Station Controller Revenue: 2010 - 2020 (= $ Million) Figure 269: Asia Pacific CDMA2000 Base Station Controller Revenue: 2010 - 2= 020 ($ Million) Figure 270: Asia Pacific TD-SCDMA Base Station Controller Revenue: 2010 - 2= 020 ($ Million) Figure 271: Asia Pacific W-CDMA Base Station Controller Revenue: 2010 - 202= 0 ($ Million) Figure 272: Asia Pacific Mobile Core Revenue: 2010 - 2020 ($ Million) Figure 273: Asia Pacific 3G Packet Core Revenue: 2010 - 2020 ($ Million) Figure 274: Asia Pacific WiMAX ASN & CSN Revenue: 2010 - 2020 ($ Million) Figure 275: Asia Pacific EPC Revenue: 2010 - 2020 ($ Million) Figure 276: Asia Pacific HLR Revenue: 2010 - 2020 ($ Million) Figure 277: Asia Pacific MSS Revenue: 2010 - 2020 ($ Million) Figure 278: Asia Pacific Small Cell Unit Shipments: 2010 - 2020 (Thousands = of Units) Figure 279: Asia Pacific Small Cell Unit Shipment Revenue: 2010 - 2020 ($ M= illion) Figure 280: Asia Pacific C-RAN Revenue: 2010 - 2020 ($ Million) Figure 281: Asia Pacific RRH Unit Shipments: 2010 - 2020 (Thousands of Unit= s) Figure 282: Asia Pacific RRH Unit Shipment Revenue: 2010 - 2020 ($ Million) Figure 283: Asia Pacific C-RAN Small Cell Unit Shipments: 2010 - 2020 (Thou= sands of Units) Figure 284: Asia Pacific C-RAN Small Cell Unit Shipment Revenue: 2010 - 202= 0 ($ Million) Figure 285: Asia Pacific C-RAN BBU Revenue: 2010 - 2020 ($ Million) Figure 286: Asia Pacific Mobile Fronthaul Revenue: 2010 - 2020 ($ Million) Figure 287: Asia Pacific DAS Node Unit Shipments: 2010 - 2020 (Thousands of= Units) Figure 288: Asia Pacific DAS Node Unit Shipment Revenue: 2010 - 2020 ($ Mil= lion) Figure 289: Asia Pacific Carrier WiFi Unit Shipments: 2010 - 2020 (Thousand= s of Units) Figure 290: Asia Pacific Carrier WiFi Unit Shipment Revenue: 2010 - 2020 ($= Million) Figure 291: Asia Pacific Macrocell Backhaul Revenue: 2010 - 2020 ($ Million) Figure 292: Asia Pacific Small Cell Backhaul Revenue: 2010 - 2020 ($ Millio= n) Figure 293: Eastern Europe Macrocell RAN Revenue: 2010 - 2020 ($ Million) Figure 294: Eastern Europe Macrocell RAN Base Station Shipments: 2010 - 2020 Figure 295: Eastern Europe Macrocell RAN Base Station Shipment Revenue: 201= 0 - 2020 ($ Million) Figure 296: Eastern Europe GSM Macrocell Base Station Shipments: 2010 - 2020 Figure 297: Eastern Europe GSM Macrocell RAN Base Station Shipment Revenue:= 2010 - 2020 ($ Million) Figure 298: Eastern Europe CDMA2000/EV-DO Macrocell Base Station Shipments:= 2010 - 2020 Figure 299: Eastern Europe CDMA2000/EV-DO Macrocell RAN Base Station Shipme= nt Revenue: 2010 - 2020 ($ Million) Figure 300: Eastern Europe W-CDMA/HSPA Macrocell Base Station Shipments: 20= 10 - 2020 Figure 301: Eastern Europe W-CDMA/HSPA Macrocell RAN Base Station Shipment = Revenue: 2010 - 2020 ($ Million) Figure 302: Eastern Europe LTE FDD Macrocell Base Station Shipments: 2010 -= 2020 Figure 303: Eastern Europe LTE FDD Macrocell RAN Base Station Shipment Reve= nue: 2010 - 2020 ($ Million) Figure 304: Eastern Europe TD-LTE Macrocell Base Station Shipments: 2010 - = 2020 Figure 305: Eastern Europe TD-LTE Macrocell RAN Base Station Shipment Reven= ue: 2010 - 2020 ($ Million) Figure 306: Eastern Europe WiMAX Macrocell Base Station Shipments: 2010 - 2= 020 Figure 307: Eastern Europe WiMAX Macrocell RAN Base Station Shipment Revenu= e: 2010 - 2020 ($ Million) Figure 308: Eastern Europe Macrocell Base Station Controller Revenue: 2010 = - 2020 ($ Million) Figure 309: Eastern Europe GSM Base Station Controller Revenue: 2010 - 2020= ($ Million) Figure 310: Eastern Europe CDMA2000 Base Station Controller Revenue: 2010 -= 2020 ($ Million) Figure 311: Eastern Europe W-CDMA Base Station Controller Revenue: 2010 - 2= 020 ($ Million) Figure 312: Eastern Europe Mobile Core Revenue: 2010 - 2020 ($ Million) Figure 313: Eastern Europe 3G Packet Core Revenue: 2010 - 2020 ($ Million) Figure 314: Eastern Europe WiMAX ASN & CSN Revenue: 2010 - 2020 ($ Million) Figure 315: Eastern Europe EPC Revenue: 2010 - 2020 ($ Million) Figure 316: Eastern Europe HLR Revenue: 2010 - 2020 ($ Million) Figure 317: Eastern Europe MSS Revenue: 2010 - 2020 ($ Million) Figure 318: Eastern Europe Small Cell Unit Shipments: 2010 - 2020 (Thousand= s of Units) Figure 319: Eastern Europe Small Cell Unit Shipment Revenue: 2010 - 2020 ($= Million) Figure 320: Eastern Europe C-RAN Revenue: 2010 - 2020 ($ Million) Figure 321: Eastern Europe RRH Unit Shipments: 2010 - 2020 (Thousands of Un= its) Figure 322: Eastern Europe RRH Unit Shipment Revenue: 2010 - 2020 ($ Millio= n) Figure 323: Eastern Europe C-RAN Small Cell Unit Shipments: 2010 - 2020 (Th= ousands of Units) Figure 324: Eastern Europe C-RAN Small Cell Unit Shipment Revenue: 2010 - 2= 020 ($ Million) Figure 325: Eastern Europe C-RAN BBU Revenue: 2010 - 2020 ($ Million) Figure 326: Eastern Europe Mobile Fronthaul Revenue: 2010 - 2020 ($ Million) Figure 327: Eastern Europe DAS Node Unit Shipments: 2010 - 2020 (Thousands = of Units) Figure 328: Eastern Europe DAS Node Unit Shipment Revenue: 2010 - 2020 ($ M= illion) Figure 329: Eastern Europe Carrier WiFi Unit Shipments: 2010 - 2020 (Thousa= nds of Units) Figure 330: Eastern Europe Carrier WiFi Unit Shipment Revenue: 2010 - 2020 = ($ Million) Figure 331: Eastern Europe Macrocell Backhaul Revenue: 2010 - 2020 ($ Milli= on) Figure 332: Eastern Europe Small Cell Backhaul Revenue: 2010 -=20 From owner-freebsd-gnome@freebsd.org Wed Jan 6 16:55:06 2016 Return-Path: <owner-freebsd-gnome@freebsd.org> Delivered-To: freebsd-gnome@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 DD474A6541F for <freebsd-gnome@mailman.ysv.freebsd.org>; Wed, 6 Jan 2016 16:55:06 +0000 (UTC) (envelope-from portscout@FreeBSD.org) Received: from mailman.ysv.freebsd.org (mailman.ysv.freebsd.org [IPv6:2001:1900:2254:206a::50:5]) by mx1.freebsd.org (Postfix) with ESMTP id CBDAF1BE3 for <freebsd-gnome@freebsd.org>; Wed, 6 Jan 2016 16:55:06 +0000 (UTC) (envelope-from portscout@FreeBSD.org) Received: by mailman.ysv.freebsd.org (Postfix) id CB4A2A6541E; Wed, 6 Jan 2016 16:55:06 +0000 (UTC) Delivered-To: gnome@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 B1092A6541D for <gnome@mailman.ysv.freebsd.org>; Wed, 6 Jan 2016 16:55:06 +0000 (UTC) (envelope-from portscout@FreeBSD.org) Received: from portscout.freebsd.org (portscout.freebsd.org [IPv6:2001:1900:2254:206a::50:6]) (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 A52FD1BE1 for <gnome@freebsd.org>; Wed, 6 Jan 2016 16:55:06 +0000 (UTC) (envelope-from portscout@FreeBSD.org) Received: from portscout.freebsd.org ([127.0.1.123]) by portscout.freebsd.org (8.15.2/8.15.2) with ESMTP id u06Gt6iM004341 for <gnome@freebsd.org>; Wed, 6 Jan 2016 16:55:06 GMT (envelope-from portscout@FreeBSD.org) Received: (from portscout@localhost) by portscout.freebsd.org (8.15.2/8.15.2/Submit) id u06Gt6JT004340; Wed, 6 Jan 2016 16:55:06 GMT (envelope-from portscout@FreeBSD.org) Message-Id: <201601061655.u06Gt6JT004340@portscout.freebsd.org> X-Authentication-Warning: portscout.freebsd.org: portscout set sender to portscout@FreeBSD.org using -f Content-Disposition: inline Content-Transfer-Encoding: 8bit Content-Type: text/plain MIME-Version: 1.0 Date: Wed, 6 Jan 2016 16:55:06 +0000 From: portscout@FreeBSD.org To: gnome@freebsd.org Subject: FreeBSD ports you maintain which are out of date X-Mailer: portscout/0.8.1 X-BeenThere: freebsd-gnome@freebsd.org X-Mailman-Version: 2.1.20 Precedence: list List-Id: GNOME for FreeBSD -- porting and maintaining <freebsd-gnome.freebsd.org> List-Unsubscribe: <https://lists.freebsd.org/mailman/options/freebsd-gnome>, <mailto:freebsd-gnome-request@freebsd.org?subject=unsubscribe> List-Archive: <http://lists.freebsd.org/pipermail/freebsd-gnome/> List-Post: <mailto:freebsd-gnome@freebsd.org> List-Help: <mailto:freebsd-gnome-request@freebsd.org?subject=help> List-Subscribe: <https://lists.freebsd.org/mailman/listinfo/freebsd-gnome>, <mailto:freebsd-gnome-request@freebsd.org?subject=subscribe> X-List-Received-Date: Wed, 06 Jan 2016 16:55:07 -0000 Dear port maintainer, The portscout new distfile checker has detected that one or more of your ports appears to be out of date. Please take the opportunity to check each of the ports listed below, and if possible and appropriate, submit/commit an update. If any ports have already been updated, you can safely ignore the entry. You will not be e-mailed again for any of the port/version combinations below. Full details can be found at the following URL: http://portscout.freebsd.org/gnome@freebsd.org.html Port | Current version | New version ------------------------------------------------+-----------------+------------ deskutils/gnome-shell-extension-audio-output-switcher | 0.0.0.20140520 | v4 ------------------------------------------------+-----------------+------------ deskutils/gnome-shell-extension-coverflow | 0.0.0.20150613 | 1.1 ------------------------------------------------+-----------------+------------ deskutils/gnome-shell-extension-dashtodock | 0.0.0.20150613 | extensions.gnome.org-v30 ------------------------------------------------+-----------------+------------ deskutils/gnome-shell-extension-openweather | 0.0.0.20150613 | v1.0 ------------------------------------------------+-----------------+------------ deskutils/gnome-shell-extension-overlay-icons | 0.0.0.20150422 | gnome-shell-3.10 ------------------------------------------------+-----------------+------------ deskutils/gnome-shell-extension-panel-osd | 0.0.0.20150422 | v1.0 ------------------------------------------------+-----------------+------------ deskutils/gnome-shell-extension-trash | 0.0.0.20150512 | 0.2.0 ------------------------------------------------+-----------------+------------ devel/libical | 1.0.1 | v2.0.0 ------------------------------------------------+-----------------+------------ games/qqwing | 1.3.3 | v1.3.4 ------------------------------------------------+-----------------+------------ lang/cjs | 2.4.1 | 2.8.0 ------------------------------------------------+-----------------+------------ misc/cinnamon-translations | 2.4.2 | 2.8.3 ------------------------------------------------+-----------------+------------ sysutils/cinnamon-control-center | 2.4.2 | 2.8.1 ------------------------------------------------+-----------------+------------ sysutils/cinnamon-settings-daemon | 2.4.3 | 2.8.3 ------------------------------------------------+-----------------+------------ x11/cinnamon | 2.4.6 | 2.8.6 ------------------------------------------------+-----------------+------------ x11/cinnamon-desktop | 2.4.2 | 2.8.0 ------------------------------------------------+-----------------+------------ x11/cinnamon-menus | 2.4.1 | 2.8.0 ------------------------------------------------+-----------------+------------ x11/cinnamon-screensaver | 2.4.1 | 2.8.0 ------------------------------------------------+-----------------+------------ x11/cinnamon-session | 2.4.3 | 2.8.2 ------------------------------------------------+-----------------+------------ x11-fm/nemo | 2.4.5 | 2.8.6 ------------------------------------------------+-----------------+------------ x11-wm/muffin | 2.4.4 | 2.8.4 ------------------------------------------------+-----------------+------------ If any of the above results are invalid, please check the following page for details on how to improve portscout's detection and selection of distfiles on a per-port basis: http://portscout.freebsd.org/info/portscout-portconfig.txt Thanks.
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