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Date:      Mon, 20 Nov 2017 10:36:55 -0500
From:      "Andy Silva" <andy.silva@snsresearchreports.com>
To:        freebsd-ppc@freebsd.org
Subject:   The Wireless Network Infrastructure Ecosystem: 2017 - 2030 - Macrocell RAN, Small Cells, C-RAN, RRH, DAS, Carrier Wi-Fi, Mobile Core, Backhaul & Fronthaul (Report)
Message-ID:  <110723947715042574117243@Ankur>
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The Wireless Network Infrastructure Ecosystem: 2017 =96 2030 =96 Macrocell =
RAN, Small Cells, C-RAN, RRH, DAS, Carrier Wi-Fi, Mobile Core, Backhaul & F=
ronthaul (Report)
=20
Hello=20

Let me offer you the latest SNS Research report to you and your team, " The=
 Wireless Network Infrastructure Ecosystem: 2017 - 2030 - Macrocell RAN, Sm=
all Cells, C-RAN, RRH, DAS, Carrier Wi-Fi, Mobile Core, Backhaul & Fronthau=
l " Below is the report highlight and if you like I can send you sample pag=
es for your details inside.

The term =93Wireless Network Infrastructure=94 has conventionally been asso=
ciated with macrocell RAN (Radio Access Network) and mobile core segments o=
f mobile operator networks. However, the scope of the term is expanding as =
mobile operators increase their investments in Heterogeneous Network or Het=
Net infrastructure such as small cells, carrier Wi-Fi and DAS (Distributed =
Antenna Systems), to cope with increasing capacity and coverage requirement=
s.
=20
In addition, mobile operators are keen to shift towards a C-RAN (Centralize=
d RAN) architecture, which centralizes baseband functionality to be shared =
across a large number of distributed radio nodes. In comparison to standalo=
ne clusters of base stations, C-RAN provides significant performance and ec=
onomic benefits such as resource pooling, multi-cell coordination, network =
extensibility and energy efficiency.
=20
Despite a rapid and persistent decline in standalone macrocell RAN infrastr=
ucture spending, SNS Research estimates that the wireless network infrastru=
cture market will grow at a CAGR of 2% between 2017 and 2020. Driven by inv=
estments in HetNet infrastructure and 5G NR (New Radio) rollouts =96 beginn=
ing in 2019, the market is expected to be worth $56 Billion in annual spend=
ing by 2020, up from $53 Billion in 2017.
=20
Our reports are compiled with primary and secondary informations to produce=
 an overall industry outlook.
=20
Key Questions Answered:
=20
The report provides answers to the following key questions:
How big is the 2G, 3G, 4G and 5G wireless network infrastructure opportunit=
y=3F
What trends, challenges and barriers are influencing its growth=3F
How is the ecosystem evolving by segment and region=3F
Which submarkets will see the highest percentage of growth=3F
What will the market size be in 2020 and at what rate will it grow=3F
How will the market shape for small cell, C-RAN, carrier Wi-Fi and DAS depl=
oyments=3F
How much service revenue will be generated by mobile operator networks=3F=20
When will 2G and 3G infrastructure spending diminish=3F
What is the outlook for LTE and 5G infrastructure investments=3F
What are the future prospects of millimeter wave technology for backhaul, f=
ronthaul and RAN deployments=3F
Who are the key vendors in the market, what is their market share and what =
are their strategies=3F
What strategies should wireless network infrastructure vendors and mobile o=
perators adopt to remain competitive=3F
Report Information:

Release Date: November 2017
Number of Pages: 943
Number of Tables and Figures: 370
=20
Key Findings:
=20
The report has the following key findings:
Despite a rapid and persistent decline in standalone macrocell RAN infrastr=
ucture spending, SNS Research estimates that the wireless network infrastru=
cture market will grow at a CAGR of 2% between 2017 and 2020.
Driven by investments in HetNet infrastructure and 5G NR rollouts =96 begin=
ning in 2019, the market is expected to be worth $56 Billion in annual spen=
ding by 2020, up from $53 Billion in 2017.
By the end of 2020, C-RAN, small cells, DAS and carrier Wi-Fi, together wit=
h their fronthaul and backhaul segments, will account for more than 45% of =
all wireless network infrastructure spending.
With LTE availability increasing worldwide and ongoing upgrades to deliver =
multi-hundred Megabit and Gigabit-grade services, we estimate that LTE, LTE=
-Advanced and LTE-Advanced Pro networks will generate more than $950 Billio=
n in annual service revenue by 2020.
New market players are beginning to emerge as mobile operators accelerate t=
heir transition to virtualized network infrastructure. For example, Mavenir=
 Systems' merger with C-RAN specialist Ranzure Networks and its subsequent =
acquisition of Brocade's virtualized mobile core business, has positioned t=
he company as an end-to-end provider of 5G-ready mobile network solutions.

Topics Covered:
=20
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 mobile o=
perators in different regional markets
Analysis of demand and supply of wireless network infrastructure including =
forecasts of investment trends, technology requirements and deployment stra=
tegies for antenna, RAN, mobile core, backhaul and fronthaul deployments
Review of mobile operator CapEx commitments, subscriptions, traffic project=
ions and service revenue, by technology and region
Market outlook for key technologies including LTE-Advanced Pro, VoLTE, LTE =
Broadcast, Cloud RAN, unlicensed and shared access small cells, and 5G NR
Industry roadmap and value chain
Profiles and strategies of over 550 ecosystem players including wireless ne=
twork infrastructure vendors and enabling technology providers
Vendor market share for macrocell RAN, small cells, C-RAN, DAS, carrier Wi-=
Fi, mobile core, backhaul and fronthaul
Market analysis and forecasts from 2017 till 2030
Forecast Segmentation:
=20
Market forecasts are provided for each of the following submarkets and thei=
r subcategories:
Macrocell RAN
Air Interface Technology Segmentation
2G & 3G
LTE FDD
TD-LTE
WiMAX
Mobile Core
Technology Segmentation
3G Packet Core
HLR (Home Location Register)
MSS (Mobile Switching Subsystem)
LTE EPC (Evolved Packet Core)
WiMAX Mobile Core
5G Mobile Core
Macrocell Backhaul
Technology Segmentation
Ethernet
Microwave & Millimeter Wave
Satellite
WDM (Wavelength Division Multiplexing)
PON (Passive Optical Network)
Others
Small Cells
Air Interface Technology Segmentation
2G & 3G
LTE
5G
Deployment Model Segmentation
Indoor
Outdoor
Use Case Segmentation
Residential
Enterprise
Urban
Rural & Suburban
Cell Size Segmentation
Femtocells
Picocells
Microcells
Small Cell Backhaul
Technology Segmentation
DSL
Ethernet
Microwave
Millimeter Wave
Satellite
Fiber & Others
Carrier Wi-Fi
Submarket Segmentation
Access Points
Access Point Controllers
Integration Approach Segmentation
Standalone Wi-Fi Hotspots
Managed Wi-Fi Offload
C-RAN
Air Interface Technology Segmentation
3G & LTE
5G
Deployment Model Segmentation
Indoor
Outdoor
Submarket Segmentation
BBUs (Baseband Units)
RRHs (Remote Radio Heads)
C-RAN Fronthaul
Technology Segmentation
Dedicated Fiber
WDM
OTN (Optical Transport Network)
PON
Ethernet
Microwave
Millimeter Wave
DAS
Deployment Model Segmentation
Indoor
Outdoor
Regional Markets
Asia Pacific
Eastern Europe
Latin & Central America
Middle East & Africa
North America
Western Europe

Report Pricing:
=20
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

=20

Andy Silva
Marketing Executive
Signals and Systems Telecom

=20

 __________________________________________________________________________=
___________

=20

Table of contents

=20

1 Chapter 1: Introduction
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
2 Chapter 2: An Overview of Wireless Network Infrastructure
2.1 What is Wireless Network Infrastructure=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 5G: IMT-2020 Technologies
2.5.1 5G Trends & Developments
2.5.2 5G Market Summary
2.6 Macrocell RAN
2.6.1 Macrocell RAN Trends & Developments
2.7 HetNet RAN
2.7.1 HetNet RAN Trends & Developments
2.7.2 Small Cells
2.7.3 C-RAN
2.7.4 DAS
2.7.5 Carrier Wi-Fi
2.8 Mobile Core
2.8.1 Mobile Core Trends & Developments
2.9 Mobile Backhaul & Fronthaul
2.9.1 Mobile Backhaul & Fronthaul Trends & Developments
=20
3 Chapter 3: Market Drivers, Barriers & Risks
3.1 Market Drivers
3.1.1 Mobile Subscriptions Growth
3.1.2 Smartphone & Connected Device 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 Legacy Infrastructure: Continued Growth in Transport N=
etworking
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
3.2 Barriers & Risks
3.2.1 CapEx Commitments
3.2.2 Spectrum Scarcity
3.2.3 RAN Sharing: A Concept Embraced by Mobile 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 Mobile 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 Mobile Operator Commitments
4.3.1 Am=E9rica M=F3vil Group
4.3.2 AT&T
4.3.3 Bharti Airtel Group
4.3.4 China Mobile
4.3.5 China Telecom
4.3.6 China Unicom
4.3.7 DT (Deutsche Telekom)
4.3.8 KDDI
4.3.9 LG Uplus
4.3.10 NTT DoCoMo
4.3.11 Orange
4.3.12 SK Telecom
4.3.13 SoftBank Corporation
4.3.14 Telef=F3nica Group
4.3.15 Telenor Group
4.3.16 Telkomsel
4.3.17 TIM (Telecom Italia Mobile)
4.3.18 VEON (Previously Vimpelcom)
4.3.19 Verizon Communications
4.3.20 Vodafone Group
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 2G & 3G
5.3.2 FDD LTE
5.3.3 TD-LTE
5.3.4 WiMAX
5.3.5 5G NR
5.4 Regional Split
5.5 Asia Pacific
5.6 Eastern Europe
5.7 Latin & Central America
5.8 Middle East & Africa
5.9 North America
5.10 Western Europe
=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 2G/3G RF Sites
6.1.7 Small Cells & UDNs (Ultra-Dense Networks)
6.1.8 Carrier Aggregation & LTE-Advanced Capabilities
6.1.9 MEC (Mobile Edge Computing)
6.2 Mobile Core Strategies
6.2.1 Co-Location of Mobile Core Functions
6.2.2 NFV (Network Functions Virtualization)
6.2.3 Deployment Architecture Choices
6.2.4 Supporting Legacy Networks
6.2.5 Integration with IMS
6.2.6 Embedding DPI for Policy Enforcement & Network Optimization
6.2.7 Network Slicing
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 Key Technology Options: Fiber, Microwave & Millimeter Wave
6.3.6 Developing a HetNet Backhaul Strategy
6.3.7 Synchronization and Timing
6.3.8 Transport Network Sharing
6.3.9 Fronthaul Options: Alternatives to Dedicated Fiber
=20
7 Chapter 7: Industry Roadmap & Value Chain
7.1 Industry Roadmap
7.1.1 Pre-2020: LTE-Advanced Upgrades & HetNet Infrastructure Rollouts
7.1.2 2020 =96 2025: Growing Adoption of 5G NR, NextGen Core & NFV-Complian=
t Infrastructure
7.1.3 2025 =96 2030: Continued Investments with 5G Network Rollouts
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 Small Cell OEMs
7.4.3 Wi-Fi Access Point OEMs
7.4.4 DAS & Repeater Solution Providers
7.4.5 C-RAN Solution Providers
7.4.6 Other Technology Providers
7.5 Transport Networking Ecosystem
7.5.1 Backhaul & Fronthaul Solution Providers
7.6 Mobile Core Ecosystem
7.6.1 Mobile Core Solution Providers
7.7 Connectivity Ecosystem
7.7.1 Mobile Operators
7.7.2 Wi-Fi 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
8.2.2 Mobile Core
8.2.3 Small Cells
8.2.4 Carrier Wi-Fi
8.2.5 C-RAN
8.2.6 DAS
8.2.7 Backhaul & Fronthaul
=20
9 Chapter 9: Wireless Network Infrastructure Incumbents
9.1 Cisco Systems
9.2 Datang Mobile
9.3 Ericsson
9.4 FiberHome Technologies
9.5 Fujitsu
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 6Harmonics
10.2 Accelleran
10.3 Adax
10.4 ADB
10.5 Affirmed Networks
10.6 Air-Lynx
10.7 Airspan Networks
10.8 Alepo
10.9 Alpha Networks
10.10 Altiostar Networks
10.11 Arcadyan Technology Corporation
10.12 Argela
10.13 Artemis Networks
10.14 Aselan
10.15 Askey Computer Corporation
10.16 ASOCS
10.17 Athonet
10.18 AttoCore
10.19 Baicells Technologies
10.20 Brocade Communications Systems
10.21 Casa Systems
10.22 CCN (Cirrus Core Networks)
10.23 cellXica
10.24 CND (Core Network Dynamics)
10.25 Collinear Networks
10.26 Contela
10.27 CS Corporation
10.28 Delta Electronics
10.29 Druid Software
10.30 EION Wireless
10.31 ELUON Corporation
10.32 Expeto Wireless
10.33 Facebook
10.34 Fairwaves
10.35 Fujian Sunnada Network Technology
10.36 Gemtek Technology
10.37 GENBAND
10.38 General Dynamics Mission Systems
10.39 GIKO GROUP
10.40 Globalstar
10.41 Google
10.42 Guangzhou Iplook Technologies
10.43 GWT (Global Wireless Technologies)
10.44 Harris Corporation
10.45 Hitachi
10.46 IDY Corporation
10.47 InnoWireless
10.48 ip.access
10.49 JRC (Japan Radio Company)
10.50 Juni Global
10.51 Kleos
10.52 Lemko Corporation
10.53 LGS Innovations
10.54 Luminate Wireless
10.55 Mavenir Systems
10.56 MitraStar Technology Corporation
10.57 Moseley Associates
10.58 Netas
10.59 New Postcom Equipment
10.60 NewNet Mobile Communications
10.61 NuRAN Wireless
10.62 Oceus Networks
10.63 Omoco
10.64 OpenCell
10.65 Panda Electronics Group
10.66 Parallel Wireless
10.67 PHAZR
10.68 Phluido
10.69 PMN (Private Mobile Networks)
10.70 Polaris Networks
10.71 Potevio
10.72 Quanta Computer
10.73 Qucell
10.74 Quortus
10.75 Range Networks
10.76 Redline Communications
10.77 Sagemcom
10.78 Samji Electronics
10.79 SerComm Corporation
10.80 SiRRAN Communications
10.81 Sistelbanda
10.82 SITRONICS
10.83 SK Telesys
10.84 SmartSky Networks
10.85 Sonus Networks
10.86 Sooktha
10.87 SpiderCloud Wireless
10.88 Star Solutions
10.89 Starry
10.90 Technicolor
10.91 Tecom
10.92 Tecore Networks
10.93 TEKTELIC Communications
10.94 Telrad Networks
10.95 Telum
10.96 Tr=F3pico
10.97 Vanu
10.98 VNC (Virtual Network Communications)
10.99 VNL (Vihaan Networks Limited)
10.100 WNC (Wistron NeWeb Corporation)
10.101 WTL (World Telecom Labs)
10.102 Wytec International
10.103 Z-Com
=20
11 Chapter 11: Antenna, DAS, RRH, Repeater & Site Solution Specialists
11.1 AAS (Amphenol Antenna Solutions)
11.2 Ace Technologies Corporation
11.3 AceAxis
11.4 ACOME
11.5 ADRF (Advanced RF Technologies)
11.6 Alpha Wireless
11.7 American Tower Corporation
11.8 Anertai Communications
11.9 Arqiva
11.10 Bird Technologies
11.11 Black Box Corporation
11.12 BlueWaveTel
11.13 Boomsense/Bangxun Technology
11.14 BTI Wireless
11.15 CCI (Communication Components, Inc.)
11.16 CCI Systems
11.17 Cellcomm Solutions
11.18 CellMax Technologies
11.19 Cellnex Telecom
11.20 Cobham Wireless
11.21 Comba Telecom
11.22 CommScope
11.23 Comtech Korea
11.24 Corning
11.25 Crown Castle International Corporation
11.26 Dali Wireless
11.27 DENGYO (Nihon Dengyo Kosaku)
11.28 DYNE TECH
11.29 Eahison Communication
11.30 Ethertronics
11.31 ExteNet Systems
11.32 Filtronic
11.33 Foshan Anderson Communication Equipment
11.34 Foxcom
11.35 Frog Cellsat
11.36 FRTek
11.37 Fujian Helios Technologies
11.38 Galtronics Corporation
11.39 Gamma Nu
11.40 Goodman Networks
11.41 GRENTECH
11.42 Hansen Technology
11.43 Hefei Maniron Electronic and Technology
11.44 Hilinks Technology
11.45 HUBER+SUHNER
11.46 Impower Technology
11.47 Innertron
11.48 Jiangsu Hengxin Technology
11.49 Jiangsu Zhengkai Electronics Technology
11.50 JMA Wireless
11.51 JQL Electronics
11.52 Kaelus
11.53 Kathrein-Werke KG
11.54 Kisan Telecom
11.55 KMW
11.56 Maven Wireless
11.57 MER Group
11.58 Microlab
11.59 MP Antenna
11.60 MTI (Microelectronics Technology, Inc.)
11.61 MTI Wireless Edge
11.62 Nextivity
11.63 OFS
11.64 OZC (Optical Zonu Corporation)
11.65 Panorama Antennas
11.66 Quintel
11.67 Raycap
11.68 RF MORECOM KOREA
11.69 RF Window
11.70 RFS (Radio Frequency Systems)
11.71 Rosenberger
11.72 R-TRON
11.73 Seontech
11.74 Shared Access
11.75 Shenzhen Huaptec
11.76 Shyam Telecom
11.77 Skybird Electronic Science & Technology
11.78 SOLiD
11.79 Sumitomo Electric Industries
11.80 Sunwave Solutions
11.81 Suzhou Hexagon Communication Technologies
11.82 Telnet Redes Inteligentes
11.83 TESSCO Technologies
11.84 Vertical Bridge
11.85 Westell Technologies
11.86 Wevercomm
11.87 Wilson Electronics
11.88 Wuhan Fingu Electronic Technology
11.89 Wuhan Gewei Electronic Technologies
11.90 Zinwave
=20
12 Chapter 12: Carrier Wi-Fi Specialists
12.1 4ipnet
12.2 ABB
12.3 Accuris Networks
12.4 Aerohive Networks
12.5 Altai Technologies
12.6 Alvarion Technologies
12.7 Aptilo Networks
12.8 Aruba Networks
12.9 Autelan
12.10 BandwidthX
12.11 Browan Communications
12.12 BSG Wireless
12.13 Carnegie Technologies
12.14 D-Link Corporation
12.15 Edgewater Wireless Systems
12.16 Firetide
12.17 Fortinet
12.18 GoNet Systems
12.19 Handlink Technologies
12.20 Kyrio
12.21 LigoWave
12.22 Linksys
12.23 Mojo Networks
12.24 NETGEAR
12.25 Nomadix
12.26 Ruckus Wireless
12.27 Senao Networks
12.28 Smith Micro Software
12.29 Syniverse Technologies
12.30 TP-LINK Technologies
12.31 Tranzeo Wireless Technologies
12.32 TruConnect Technologies
12.33 Ubiquiti Networks
12.34 Zyxel Communications Corporation
=20
13 Chapter 13: Enabling & Complementary Technology Providers
13.1 6WIND
13.2 Accedian Networks
13.3 Accelink Technologies Corporation
13.4 Accuver
13.5 ADI (Analog Devices Inc.)
13.6 ADLINK Technology
13.7 Advantech
13.8 Affarii Technologies
13.9 Airgain
13.10 AirHop Communications
13.11 Airrays
13.12 AKM (Asahi Kasei Microdevices Corporation)
13.13 Akoustis Technologies
13.14 ALBEDO Telecom
13.15 Allot Communications
13.16 Alpha Technologies
13.17 Altran
13.18 Amarisoft
13.19 Amdocs
13.20 Anokiwave
13.21 Anritsu Corporation
13.22 Aquantia Corporation
13.23 Aricent
13.24 ARM Holdings
13.25 Artesyn Embedded Technologies
13.26 Artiza Networks
13.27 Astellia
13.28 ASTRI (Hong Kong Applied Science and Technology Research Institute)
13.29 ATDI
13.30 Azcom Technology
13.31 BATS (Broadband Antenna Tracking Systems)
13.32 Benetel
13.33 Blu Wireless Technology
13.34 Blue Danube Systems
13.35 BoostEdge
13.36 Broadcom
13.37 C Squared Systems
13.38 Cadence Design Systems
13.39 Cambridge Consultants
13.40 Cavium
13.41 CeedTec
13.42 CellMining
13.43 Cellwize Wireless Technologies
13.44 CelPlan Technologies
13.45 Celtro
13.46 CEVA
13.47 Cirpack
13.48 Clavister
13.49 Cloudstreet
13.50 Connect Tech
13.51 Cohere Technologies
13.52 Coherent Logix
13.53 Collision Communications
13.54 Comcores
13.55 CommAgility
13.56 Creanord
13.57 D2 Technologies
13.58 Dell Technologies
13.59 Dialogic
13.60 DigitalGlobe
13.61 Direct Beam
13.62 eASIC Corporation
13.63 EDX Wireless
13.64 ENENSYS Technologies
13.65 Eoptolink Technology
13.66 Ercom
13.67 Ethernity Networks
13.68 ETRI (Electronics & Telecommunications Research Institute, South Kore=
a)
13.69 EXFO
13.70 Expway
13.71 Faraday Technology Corporation
13.72 Federated Wireless
13.73 Finisar Corporation
13.74 Flash Networks
13.75 Flex Logix Technologies
13.76 Forsk
13.77 Foxconn Interconnect Technology
13.78 Fraunhofer FOKUS  (Institute for Open Communication Systems)
13.79 Fraunhofer HHI (Heinrich Hertz Institute)
13.80 Furuno Electric
13.81 Galgus
13.82 GenXComm
13.83 GigaLight
13.84 GlobalFoundries
13.85 HCL Technologies
13.86 Hisense
13.87 HPE (Hewlett Packard Enterprise)
13.88 IBM Corporation
13.89 iBwave Solutions
13.90 IDT (Integrated Device Technology)
13.91 IM Technology
13.92 Imec International
13.93 Infineon Technologies
13.94 InfoVista
13.95 InnoLight Technology
13.96 Intel Corporation
13.97 InterDigital
13.98 IP Light
13.99 iPosi
13.100 IS-Wireless
13.101 ISCO International
13.102 Italtel
13.103 ITRI (Industrial Technology Research Institute, Taiwan)
13.104 Juniper Networks
13.105 Keima
13.106 Keysight Technologies
13.107 Koonsys Radiocommunications
13.108 Kumu Networks
13.109 Lattice Semiconductor
13.110 LCR Embedded Systems
13.111 Lime Microsystems
13.112 Linker Networks
13.113 LS telcom
13.114 Lumentum
13.115 LuxCarta
13.116 MACOM Technology Solutions Holdings
13.117 Maja Systems
13.118 Mathworks
13.119 Maxim Integrated
13.120 MaxLinear
13.121 Mellanox Technologies
13.122 Metaswitch Networks
13.123 Microsemi Corporation
13.124 Mitsubishi Electric Corporation
13.125 Mobiveil
13.126 Molex
13.127 Mosaik
13.128 Multiwave Sensors
13.129 N.A.T.
13.130 Nash Technologies
13.131 Netonomics
13.132 NETSCOUT Systems
13.133 NI (National Instruments)
13.134 Node-H
13.135 Nomor Research
13.136 NXP Semiconductors
13.137 Octasic
13.138 OE Solutions
13.139 One2many
13.140 Openet
13.141 Optulink
13.142 Oracle Communications
13.143 P.I. Works
13.144 Panasonic Corporation
13.145 PCTEL
13.146 Peraso Technologies
13.147 Plasma Antennas
13.148 Pletronics
13.149 Polystar
13.150 PRISMA Telecom Testing
13.151 Procera Networks
13.152 Pulse Electronics
13.153 pureLiFi
13.154 Qorvo
13.155 Qualcomm
13.156 Qulsar
13.157 Qwilt
13.158 RADCOM
13.159 Radio Gigabit
13.160 Radisys Corporation
13.161 Rakon
13.162 Ranplan Wireless Network Design
13.163 Red Hat
13.164 RED Technologies
13.165 RF DSP
13.166 Rivada Networks
13.167 Rohde & Schwarz
13.168 Saguna Networks
13.169 SAI Technology
13.170 Sarokal Test Systems
13.171 SAT (Smart Antenna Technologies)
13.172 Sevis Systems
13.173 SevOne
13.174 Silicon Labs (Silicon Laboratories)
13.175 SIRADEL
13.176 Sivers IMA
13.177 Skyworks Solutions
13.178 Softil
13.179 Source Photonics
13.180 Space Data Corporation
13.181 Spirent Communications
13.182 SRS (Software Radio Systems)
13.183 STMicroelectronics
13.184 Tata Elxsi
13.185 Tech Mahindra
13.186 TEOCO Corporation
13.187 TI (Texas Instruments)
13.188 Tieto Corporation
13.189 TSMC (Taiwan Semiconductor Manufacturing Company)
13.190 TTP (The Technology Partnership)
13.191 Tulinx
13.192 U-blox
13.193 Vasona Networks
13.194 Vectron International
13.195 Vencore Labs
13.196 Viavi Solutions
13.197 Virtuosys
13.198 VMware
13.199 WiPro
13.200 Wireless Telecom Group
13.201 WiSig Networks
13.202 XCellAir
13.203 Xelic
13.204 xG Technology
13.205 Xilinx
=20
14 Chapter 14: Mobile Backhaul & Fronthaul Solution Providers
14.1 3Roam
14.2 4RF
14.3 Actelis Networks
14.4 Actiontec Electronics
14.5 Actus Networks
14.6 ADTRAN
14.7 ADVA Optical Networking
14.8 Advantech Wireless
14.9 ALAXALA Networks Corporation
14.10 Albis-Elcon
14.11 ALCOMA
14.12 Allied Data Technologies
14.13 Allied Telesis
14.14 APRESIA Systems
14.15 ARRIS International
14.16 Avanti Communications Group
14.17 Aviat Networks
14.18 AVM (AVM Computersysteme Vertriebs)
14.19 BluWan
14.20 BridgeWave Communications
14.21 CableFree (Wireless Excellence)
14.22 Calix
14.23 Cambium Networks
14.24 Canoga Perkins Corporation
14.25 Carlson Wireless Technologies
14.26 CarrierComm
14.27 CBNL (Cambridge Broadband Networks Ltd.)
14.28 CCS (Cambridge Communication Systems)
14.29 Ceragon Networks
14.30 Cielo Networks
14.31 Ciena Corporation
14.32 Comtech EF Data Corporation
14.33 Comtrend Corporation
14.34 Corecess
14.35 Coriant
14.36 DASAN Zhone Solutions
14.37 DragonWave-X
14.38 E-Band Communications
14.39 EBlink
14.40 ECI Telecom
14.41 Ekinops
14.42 ELVA-1
14.43 Eutelsat  Communications
14.44 Exalt Wireless
14.45 Extreme Networks
14.46 FastBack Networks
14.47 FibroLan
14.48 Furukawa Electric Group
14.49 Genmix Technology
14.50 Gilat Satellite Networks
14.51 HFR
14.52 HISPASAT Group
14.53 Huahuan
14.54 Hughes Network Systems
14.55 HXI
14.56 InCoax
14.57 Infinera
14.58 InfiNet Wireless
14.59 Inmarsat
14.60 Intelsat
14.61 Intracom Telecom
14.62 IPITEK
14.63 Iskratel
14.64 KEYMILE
14.65 Ligado Networks
14.66 LightPointe Communications
14.67 Lindsay Broadband
14.68 Loea Corporation
14.69 MAX4G
14.70 Microwave Networks
14.71 Mimosa Networks
14.72 MIMOtech
14.73 MRV Communications
14.74 Nexcomm Systems
14.75 NexxCom Wireless

14.77 OneAccess Networks
14.78 OneWeb
14.79 Patton Electronics
14.80 Polewall
14.81 Positron
14.82 Proxim Wireless Corporation
14.83 RACOM
14.84 RAD Data Communications
14.85 RADWIN
14.86 Raisecom
14.87 REMEC Broadband Wireless Networks
14.88 SAF Tehnika
14.89 SES
14.90 Shyam Networks
14.91 SIAE Microelettronica
14.92 Siklu Communication
14.93 SkyFiber
14.94 SMC Networks
14.95 Solectek Corporation
14.96 Spectronite
14.97 Star Microwave
14.98 Tarana Wireless
14.99 Telco Systems
14.100 Tellabs
14.101 Tellion
14.102 Tellumat
14.103 Telsey
14.104 Thuraya Telecommunications Company
14.105 Tilgin
14.106 Trango Systems
14.107 Transition Networks
14.108 Ubiquoss
14.109 UTStarcom
14.110 ViaSat
14.111 VT iDirect
14.112 Vubiq Networks
14.113 Wave1
14.114 Wavesight
14.115 XAVi Technologies Corporation
14.116 Yamaha Corporation
=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
15.4 Standalone Macrocells
15.4.1 Segmentation by Air Interface Technology
15.4.1.1 2G & 3G
15.4.1.2 FDD LTE
15.4.1.3 TD-LTE
15.4.1.4 WiMAX
15.4.1.5 5G NR
15.5 Mobile Core
15.5.1 Segmentation by Technology
15.5.1.1 3G Packet Core
15.5.1.2 HLR
15.5.1.3 MSS
15.5.1.4 LTE EPC
15.5.1.5 WiMAX
15.5.1.6 5G NextGen Core
15.6 Mobile Backhaul
15.6.1 Segmentation by Technology
15.6.1.1 Ethernet
15.6.1.2 Microwave & Millimeter Wave
15.6.1.3 Satellite
15.6.1.4 WDM
15.6.1.5 PON
15.6.1.6 Others
15.7 Small Cells
15.7.1 Segmentation by Use Case
15.7.1.1 Residential
15.7.1.2 Enterprise
15.7.1.3 Urban
15.7.1.4 Rural & Suburban
15.7.2 Segmentation by Form Factor
15.7.2.1 Femtocells
15.7.2.2 Picocells
15.7.2.3 Microcells
15.7.3 Segmentation by Air Interface Technology
15.7.3.1 2G & 3G
15.7.3.2 LTE
15.7.3.3 5G NR
15.7.4 Segmentation by Deployment Model
15.7.4.1 Indoor
15.7.4.2 Outdoor
15.7.5 Segmentation by RAN Architecture
15.7.5.1 Standalone
15.7.5.2 C-RAN
15.8 Small Cell Backhaul
15.8.1 Segmentation by Technology
15.8.1.1 DSL
15.8.1.2 Ethernet
15.8.1.3 Microwave
15.8.1.4 Millimeter Wave
15.8.1.5 Satellite
15.8.1.6 Fiber & Others
15.9 Carrier Wi-Fi
15.9.1 Segmentation by Submarket
15.9.1.1 Access Points
15.9.1.2 Access Point Controllers
15.9.2 Segmentation by Integration Approach
15.9.2.1 Standalone Wi-Fi Hotspots
15.9.2.2 Managed Wi-Fi Offload
15.10 C-RAN
15.10.1 Segmentation by Submarket
15.10.1.1 RRHs
15.10.1.2 BBUs
15.10.2 Segmentation by Air Interface Technology
15.10.2.1 3G & LTE
15.10.2.2 5G NR
15.10.3 Segmentation by Deployment Model
15.10.3.1 Indoor
15.10.3.2 Outdoor
15.10.4 Segmentation by Cell Size
15.10.4.1 Small Cells
15.10.4.2 Macrocells
15.11 C-RAN Fronthaul
15.11.1 Segmentation by Technology
15.11.1.1 Dedicated Fiber
15.11.1.2 WDM
15.11.1.3 OTN & PON
15.11.1.4 Ethernet
15.11.1.5 Microwave
15.11.1.6 Millimeter Wave
15.11.1.7 G.Fast & Others
15.12 DAS
15.12.1 Segmentation by Deployment Model
15.12.1.1 Indoor
15.12.1.2 Outdoor
=20
16 Chapter 16: Regional Market Analysis & Forecasts
16.1 Segmentation by Region
16.1.1 Standalone Macrocells
16.1.2 Mobile Core
16.1.3 Macrocell Backhaul
16.1.4 Small Cells
16.1.5 Small Cell Backhaul
16.1.6 Carrier Wi-Fi
16.1.7 C-RAN
16.1.8 C-RAN Fronthaul
16.1.9 DAS
16.2 Asia Pacific
16.2.1 Standalone Macrocells
16.2.2 Mobile Core
16.2.3 Macrocell Backhaul
16.2.4 Small Cells
16.2.5 Small Cell Backhaul
16.2.6 Carrier Wi-Fi
16.2.7 C-RAN
16.2.8 C-RAN Fronthaul
16.2.9 DAS
16.3 Eastern Europe
16.3.1 Standalone Macrocells
16.3.2 Mobile Core
16.3.3 Macrocell Backhaul
16.3.4 Small Cells
16.3.5 Small Cell Backhaul
16.3.6 Carrier Wi-Fi
16.3.7 C-RAN
16.3.9 DAS
16.4 Latin & Central America
16.4.1 Standalone Macrocells
16.4.2 Mobile Core
16.4.3 Macrocell Backhaul
16.4.4 Small Cells
16.4.5 Small Cell Backhaul
16.4.6 Carrier Wi-Fi
16.4.7 C-RAN
16.4.8 C-RAN Fronthaul
16.4.9 DAS
16.5 Middle East & Africa
16.5.1 Standalone Macrocells
16.5.2 Mobile Core
16.5.3 Macrocell Backhaul
16.5.4 Small Cells
16.5.5 Small Cell Backhaul
16.5.6 Carrier Wi-Fi
16.5.7 C-RAN
16.5.8 C-RAN Fronthaul
16.5.9 DAS
16.6 North America
16.6.1 Standalone Macrocells
16.6.2 Mobile Core
16.6.3 Macrocell Backhaul
16.6.4 Small Cells
16.6.5 Small Cell Backhaul
16.6.6 Carrier Wi-Fi
16.6.7 C-RAN
16.6.8 C-RAN Fronthaul
16.6.9 DAS
16.7 Western Europe
16.7.1 Standalone Macrocells
16.7.2 Mobile Core
16.7.3 Macrocell Backhaul
16.7.4 Small Cells
16.7.5 Small Cell Backhaul
16.7.6 Carrier Wi-Fi
16.7.7 C-RAN
16.7.8 C-RAN Fronthaul
16.7.9 DAS
=20
17 Chapter 17: Conclusion & Strategic Recommendations
17.1 Why is the Market Poised to Grow=3F
17.2 Competitive Industry Landscape: Acquisitions, Alliances & Consolidation
17.3 LTE, LTE-Advanced & LTE-Advanced Pro Rollouts
17.3.1 Commercial Availability of LTE
17.3.2 LTE-Advanced: Multi-Hundred Mbps LTE Networks
17.3.3 Moving Beyond Carrier Aggregation
17.3.4 LTE-Advanced Pro: Enabling Gigabit-Grade LTE Services
17.3.5 TD-LTE: Data Offloading & Tight Interworking
17.3.6 VoLTE & RCS
17.3.7 LTE Broadcast & eMBMS
17.3.8 Private LTE Networks: Vertical Market Opportunities
17.4 5G Development Efforts
17.4.1 Emergence of 5G NR-Ready Base Station Platforms
17.4.2 Pre-Standards 5G Networks
17.4.3 Standardization & Commercialization Timeline
17.4.4 R&D Focus Areas
17.4.5 Demonstrations & Performance Assessment
17.5 HetNet Segment Developments
17.5.1 C-RAN Foundations for 5G NR Deployments
17.5.2 RAN Disaggregation: Blurring the Lines Between Small Cells and C-RAN
17.5.3 Enterprise RAN Platforms
17.5.4 Cloud RAN/vRAN (Virtualized RAN)
17.5.5 Unlicensed & Shared Spectrum Small Cells
17.5.6 Neutral Hosting
17.6 Is Virtualization a Threat to Established Wireless Network Infrastruct=
ure Vendors=3F
17.7 Wireless Incumbents Could Face Cloud Rivals: Thanks to SDN & NFV
17.8 Smart Cities: Wireless Network Infrastructure Vendors to Lead the Way
17.9 Spectrum: Driving Continued Acquisitions by Incumbent Mobile Operators
17.10 Mobile Operators Will Strive for Agility
17.11 SWOT Analysis
17.12 Strategic Recommendations
17.12.1 Recommendations for Mobile Operators
17.12.2 Recommendations for Wireless Network Infrastructure Vendors


=20

List of figures

=20

Figure 1: Subsegments of the Wireless Network Infrastructure Market
Figure 2: 5G Performance Requirements
Figure 3: 5G Network Architecture & Interaction with Other Networks
Figure 4: Macrocell RAN Component Segmentation by Technology
Figure 5: HetNet RAN Component Segmentation by Technology
Figure 6: Global VoLTE Subscriptions: 2017 =96 2030 (Millions)
Figure 7: Mobile Backhaul & Fronthaul Segmentation by Technology
Figure 8: Annual Throughput of Mobile Network Data Traffic by Region: 2017 =
=96 2030 (Exabytes)
Figure 9: Annual Global Throughput of Mobile Network Data Traffic by Access=
 Network Technology: 2017 =96 2030 (Exabytes)
Figure 10: Global Public Safety LTE Infrastructure Spending: 2017 =96 2030 =
($ Million)
Figure 11: TCO Comparison for 2G, 3G, LTE and HetNet Deployments ($ per GB)
Figure 12: Strategic Options for Mobile Operators
Figure 13: Global Mobile Network CapEx: 2017 =96 2030 ($ Million)
Figure 14: Mobile Network CapEx by Region: 2017 =96 2030 ($ Million)
Figure 15: Wireless CapEx Commitments for Top 20 Most Influential Mobile Op=
erators: 2016 ($ Million)
Figure 16: Am=E9rica M=F3vil Group Wireless CapEx Commitments ($ Million)
Figure 17: AT&T Wireless CapEx Commitments ($ Million)
Figure 18: Bharti Airtel Group Wireless CapEx Commitments ($ Million)
Figure 19: China Mobile Wireless CapEx Commitments ($ Million)
Figure 20: China Telecom Wireless CapEx Commitments ($ Million)
Figure 21: China Unicom Wireless CapEx Commitments ($ Million)
Figure 22: DT (Deutsche Telekom) Wireless CapEx Commitments ($ Million)
Figure 23: KDDI Wireless CapEx Commitments ($ Million)
Figure 24: LG Uplus Wireless CapEx Commitments ($ Million)
Figure 25: NTT DoCoMo Wireless CapEx Commitments ($ Million)
Figure 26: Orange Wireless CapEx Commitments ($ Million)
Figure 27: SK Telecom Wireless CapEx Commitments ($ Million)
Figure 28: SoftBank Corporation Wireless CapEx Commitments ($ Million)
Figure 29: Telef=F3nica Group Wireless CapEx Commitments ($ Million)
Figure 30: Telenor Group Wireless CapEx Commitments ($ Million)
Figure 31: Telkomsel Wireless CapEx Commitments ($ Million)
Figure 32: TIM (Telecom Italia Mobile) Wireless Commitments ($ Million)
Figure 33: VEON Wireless CapEx Commitments ($ Million)
Figure 34: Verizon Communications Wireless CapEx Commitments ($ Million)
Figure 35: Vodafone Group Wireless CapEx Commitments ($ Million)
Figure 36: Asia Pacific Mobile Network CapEx: 2017 =96 2030 ($ Million)
Figure 37: Eastern Europe Mobile Network CapEx: 2017 =96 2030 ($ Million)
Figure 38: Latin & Central America Mobile Network CapEx: 2017 =96 2030 ($ M=
illion)
Figure 39: Middle East & Africa Mobile Network CapEx: 2017 =96 2030 ($ Mill=
ion)
Figure 40: North America Mobile Network CapEx: 2017 =96 2030 ($ Million)
Figure 41: Western Europe Mobile Network CapEx: 2017 =96 2030 ($ Million)
Figure 42: Global Mobile Network Subscriptions: 2017 =96 2030 (Millions)
Figure 43: Global Mobile Network Service Revenue: 2017 =96 2030 ($ Billion)
Figure 44: Global Mobile Network Subscriptions by Technology: 2017 =96 2030=
 (Millions)
Figure 45: Global Mobile Network Service Revenue by Technology: 2017 =96 20=
30 ($ Billion)
Figure 46: Global 2G & 3G Mobile Network Subscriptions: 2017 =96 2030 (Mill=
ions)
Figure 47: Global 2G & 3G Mobile Network Service Revenue: 2017 =96 2030 ($ =
Billion)
Figure 48: Global FDD LTE Mobile Network Subscriptions: 2017 =96 2030 (Mill=
ions)
Figure 49: Global FDD LTE Mobile Network Service Revenue: 2017 =96 2030 ($ =
Billion)
Figure 50: Global TD-LTE Mobile Network Subscriptions: 2017 =96 2030 (Milli=
ons)
Figure 51: Global TD-LTE Mobile Network Service Revenue: 2017 =96 2030 ($ B=
illion)
Figure 52: Global WiMAX Mobile Network Subscriptions: 2017 =96 2030 (Millio=
ns)
Figure 53: Global WiMAX Mobile Network Service Revenue: 2017 =96 2030 ($ Bi=
llion)
Figure 54: Global 5G NR Mobile Network Subscriptions: 2017 =96 2030 (Millio=
ns)
Figure 55: Global 5G NR Mobile Network Service Revenue: 2017 =96 2030 ($ Bi=
llion)
Figure 56: Mobile Network Subscriptions by Region: 2017 =96 2030 (Millions)
Figure 57: Mobile Network Service Revenue by Region: 2017 =96 2030 ($ Billi=
on)
Figure 58: Asia Pacific Mobile Network Subscriptions: 2017 =96 2030 (Millio=
ns)
Figure 59: Asia Pacific Mobile Network Service Revenue: 2017 =96 2030 ($ Bi=
llion)
Figure 60: Eastern Europe Mobile Network Subscriptions: 2017 =96 2030 (Mill=
ions)
Figure 61: Eastern Europe Mobile Network Service Revenue: 2017 =96 2030 ($ =
Billion)
Figure 62: Latin & Central America Mobile Network Subscriptions: 2017 =96 2=
030 (Millions)
Figure 63: Latin & Central America Mobile Network Service Revenue: 2017 =96=
 2030 ($ Billion)
Figure 64: Middle East & Africa Mobile Network Subscriptions: 2017 =96 2030=
 (Millions)
Figure 65: Middle East & Africa Mobile Network Service Revenue: 2017 =96 20=
30 ($ Billion)
Figure 66: North America Mobile Network Subscriptions: 2017 =96 2030 (Milli=
ons)
Figure 67: North America Mobile Network Service Revenue: 2017 =96 2030 ($ B=
illion)
Figure 68: Western Europe Mobile Network Subscriptions: 2017 =96 2030 (Mill=
ions)
Figure 69: Western Europe Mobile Network Service Revenue: 2017 =96 2030 ($ =
Billion)
Figure 70: RRH & FTTA Design
Figure 71: C-RAN Architecture
Figure 72: NFV Concept
Figure 73: Conceptual Architecture for End-to-End Network Slicing in Mobile=
 Networks
Figure 74: Wireless Network Infrastructure Industry Roadmap: 2017 =96 2030
Figure 75: Wireless Network Infrastructure Value Chain
Figure 76: Macrocell RAN Market Share by Vendor: 2016 (%)
Figure 77: Mobile Core Market Share by Vendor: 2016 (%)
Figure 78: Small Cell Market Share by Vendor: 2016 (%)
Figure 79: Carrier Wi-Fi Market Share by Vendor: 2016 (%)
Figure 80: C-RAN Market Share by Vendor: 2016 (%)
Figure 81: DAS Market Share by Vendor: 2016 (%)
Figure 82: Backhaul & Fronthaul Market Share by Vendor: 2016 (%)
Figure 83: Global Wireless Network Infrastructure Revenue by Submarket: 201=
7 =96 2030 ($ Million)
Figure 84: Global Wireless Network Infrastructure Market Share by Submarket=
: 2017 (%)
Figure 85: Global Wireless Network Infrastructure Market Share by Submarket=
: 2020 (%)
Figure 86: Global Macrocell RAN & Mobile Core Revenue: 2017 =96 2030 ($ Mil=
lion)
Figure 87: Global Standalone Macrocell Base Station Shipments: 2017 =96 203=
0 (Thousands of Units)
Figure 88: Global Standalone Macrocell Base Station Shipment Revenue: 2017 =
=96 2030 ($ Million)
Figure 89: Global Standalone Macrocell Base Station Shipments by Air Interf=
ace Technology: 2017 =96 2030 (Thousands of Units)
Figure 90: Global Standalone Macrocell Base Station Shipment Revenue by Air=
 Interface Technology: 2017 =96 2030 ($ Million)
Figure 91: Global 2G & 3G Standalone Macrocell Base Station Shipments: 2017=
 =96 2030 (Thousands of Units)
Figure 92: Global 2G & 3G Standalone Macrocell Base Station Shipment Revenu=
e: 2017 =96 2030 ($ Million)
Figure 93: Global 2G & 3G Macrocell BSC Revenue: 2017 =96 2030 ($ Million)
Figure 94: Global LTE FDD Standalone Macrocell Base Station Shipments: 2017=
 =96 2030 (Thousands of Units)
Figure 95: Global LTE FDD Standalone Macrocell Base Station Shipment Revenu=
e: 2017 =96 2030 ($ Million)
Figure 96: Global TD-LTE Standalone Macrocell Base Station Shipments: 2017 =
=96 2030 (Thousands of Units)
Figure 97: Global TD-LTE Standalone Macrocell Base Station Shipment Revenue=
: 2017 =96 2030 ($ Million)
Figure 98: Global WiMAX Standalone Macrocell Base Station Shipments: 2017 =
=96 2030 (Thousands of Units)
Figure 99: Global WiMAX Standalone Macrocell Base Station Shipment Revenue:=
 2017 =96 2030 ($ Million)
Figure 100: Global 5G NR Standalone Macrocell Base Station Shipments: 2019 =
=96 2030 (Thousands of Units)
Figure 101: Global 5G NR Standalone Macrocell Base Station Shipment Revenue=
: 2019 =96 2030 ($ Million)
Figure 102: Global Mobile Core Revenue: 2017 =96 2030 ($ Million)
Figure 103: Global Mobile Core Revenue by Technology: 2017 =96 2030 ($ Mill=
ion)
Figure 104: Global 3G Packet Core Revenue: 2017 =96 2030 ($ Million)
Figure 105: Global HLR Revenue: 2017 =96 2030 ($ Million)
Figure 106: Global MSS Revenue: 2017 =96 2030 ($ Million)
Figure 107: Global LTE EPC Revenue: 2017 =96 2030 ($ Million)
Figure 108: Global WIMAX Mobile Core Revenue: 2017 =96 2030 ($ Million)
Figure 109: Global 5G NextGen Core Revenue: 2019 =96 2030 ($ Million)
Figure 110: Global Macrocell Backhaul Revenue: 2017 =96 2030 ($ Million)
Figure 111: Global Macrocell Backhaul Revenue by Technology: 2017 =96 2030 =
($ Million)
Figure 112: Global Ethernet Macrocell Backhaul Revenue: 2017 =96 2030 ($ Mi=
llion)
Figure 113: Global Microwave & Millimeter Wave Macrocell Backhaul Revenue: =
2017 =96 2030 ($ Million)
Figure 114: Global Satellite Macrocell Backhaul Revenue: 2017 =96 2030 ($ M=
illion)
Figure 115: Global WDM Macrocell Backhaul Revenue: 2017 =96 2030 ($ Million)
Figure 116: Global PON Macrocell Backhaul Revenue: 2017 =96 2030 ($ Million)
Figure 117: Global Other Technologies Macrocell Backhaul Revenue: 2017 =96 =
2030 ($ Million)
Figure 118: Global Small Cell Unit Shipments: 2017 =96 2030 (Thousands of U=
nits)
Figure 119: Global Small Cell Unit Shipment Revenue: 2017 =96 2030 ($ Milli=
on)
Figure 120: Global Small Cell Unit Shipments by Use Case: 2017 =96 2030 (Th=
ousands of Units)
Figure 121: Global Small Cell Unit Shipment Revenue by Use Case: 2017 =96 2=
030 ($ Million)
Figure 122: Global Residential Small Cell Unit Shipments: 2017 =96 2030 (Th=
ousands of Units)
Figure 123: Global Residential Small Cell Unit Shipment Revenue: 2017 =96 2=
030 ($ Million)
Figure 124: Global Enterprise Small Cell Unit Shipments: 2017 =96 2030 (Tho=
usands of Units)
Figure 125: Global Enterprise Small Cell Unit Shipment Revenue: 2017 =96 20=
30 ($ Million)
Figure 126: Global Urban Small Cell Unit Shipments: 2017 =96 2030 (Thousand=
s of Units)
Figure 127: Global Urban Small Cell Unit Shipment Revenue: 2017 =96 2030 ($=
 Million)
Figure 128: Global Rural & Suburban Small Cell Unit Shipments: 2017 =96 203=
0 (Thousands of Units)
Figure 129: Global Rural & Suburban Small Cell Unit Shipment Revenue: 2017 =
=96 2030 ($ Million)
Figure 130: Global Small Cell Unit Shipments by Form Factor: 2017 =96 2030 =
(Thousands of Units)
Figure 131: Global Small Cell Unit Shipment Revenue by Form Factor: 2017 =
=96 2030 ($ Million)
Figure 132: Global Femtocell Unit Shipments: 2017 =96 2030 (Thousands of Un=
its)
Figure 133: Global Femtocell Unit Shipment Revenue: 2017 =96 2030 ($ Millio=
n)
Figure 134: Global Picocell Unit Shipments: 2017 =96 2030 (Thousands of Uni=
ts)
Figure 135: Global Picocell Unit Shipment Revenue: 2017 =96 2030 ($ Million)
Figure 136: Global Microcell Unit Shipments: 2017 =96 2030 (Thousands of Un=
its)
Figure 137: Global Microcell Unit Shipment Revenue: 2017 =96 2030 ($ Millio=
n)
Figure 138: Global Small Cell Unit Shipments by Air Interface Technology: 2=
017 =96 2030 (Thousands of Units)
Figure 139: Global Small Cell Unit Shipment Revenue by Air Interface Techno=
logy: 2017 =96 2030 ($ Million)
Figure 140: Global 2G & 3G Small Cell Unit Shipments: 2017 =96 2030 (Thousa=
nds of Units)
Figure 141: Global 2G & 3G Small Cell Unit Shipment Revenue: 2017 =96 2030 =
($ Million)
Figure 142: Global LTE Small Cell Unit Shipments: 2017 =96 2030 (Thousands =
of Units)
Figure 143: Global LTE Small Cell Unit Shipment Revenue: 2017 =96 2030 ($ M=
illion)
Figure 144: Global 5G NR Small Cell Unit Shipments: 2019 =96 2030 (Thousand=
s of Units)
Figure 145: Global 5G NR Small Cell Unit Shipment Revenue: 2019 =96 2030 ($=
 Million)
Figure 146: Global Small Cell Unit Shipments by Deployment Model: 2017 =96 =
2030 (Thousands of Units)
Figure 147: Global Small Cell Unit Shipment Revenue by Deployment Model: 20=
17 =96 2030 ($ Million)
Figure 148: Global Indoor Small Cell Unit Shipments: 2017 =96 2030 (Thousan=
ds of Units)
Figure 149: Global Indoor Small Cell Unit Shipment Revenue: 2017 =96 2030 (=
$ Million)
Figure 150: Global Outdoor Small Cell Unit Shipments: 2017 =96 2030 (Thousa=
nds of Units)
Figure 151: Global Outdoor Small Cell Unit Shipment Revenue: 2017 =96 2030 =
($ Million)
Figure 152: Global Small Cell Unit Shipments by RAN Architecture: 2017 =96 =
2030 (Thousands of Units)
Figure 153: Global Small Cell Unit Shipment Revenue by RAN Architecture: 20=
17 =96 2030 ($ Million)
Figure 154: Global Standalone Small Cell Unit Shipments: 2017 =96 2030 (Tho=
usands of Units)
Figure 155: Global Standalone Small Cell Unit Shipment Revenue: 2017 =96 20=
30 ($ Million)
Figure 156: Global C-RAN Small Cell Unit Shipments: 2017 =96 2030 (Thousand=
s of Units)
Figure 157: Global C-RAN Small Cell Unit Shipment Revenue: 2017 =96 2030 ($=
 Million)
Figure 158: Global Small Cell Backhaul Revenue: 2017 =96 2030 ($ Million)
Figure 159: Global Small Cell Backhaul Revenue by Technology: 2017 =96 2030=
 ($ Million)
Figure 160: Global DSL Small Cell Backhaul Revenue: 2017 =96 2030 ($ Millio=
n)
Figure 161: Global Ethernet Small Cell Backhaul Revenue: 2017 =96 2030 ($ M=
illion)
Figure 162: Global Microwave Small Cell Backhaul Revenue: 2017 =96 2030 ($ =
Million)
Figure 163: Global Millimeter Wave Small Cell Backhaul Revenue: 2017 =96 20=
30 ($ Million)
Figure 164: Global Satellite Small Cell Backhaul Revenue: 2017 =96 2030 ($ =
Million)
Figure 165: Global Fiber & Other Technologies Small Cell Backhaul Revenue: =
2017 =96 2030 ($ Million)
Figure 166: Global Carrier Wi-Fi Revenue: 2017 =96 2030 ($ Million)
Figure 167: Global Carrier Wi-Fi Revenue by Submarket: 2017 =96 2030 ($ Mil=
lion)
Figure 168: Global Carrier Wi-Fi Access Point Unit Shipments: 2017 =96 2030=
 (Thousands of Units)
Figure 169: Global Carrier Wi-Fi Access Point Unit Shipment Revenue: 2017 =
=96 2030 ($ Million)
Figure 170: Global Carrier Wi-Fi Access Point Controller Unit Shipments: 20=
17 =96 2030 (Thousands of Units)
Figure 171: Global Carrier Wi-Fi Access Point Controller Unit Shipment Reve=
nue: 2017 =96 2030 ($ Million)
Figure 172: Global Carrier Wi-Fi Access Point Unit Shipments by Integration=
 Approach: 2017 =96 2030 (Thousands of Units)
Figure 173: Global Carrier Wi-Fi Access Point Unit Shipment Revenue by Inte=
gration Approach: 2017 =96 2030 ($ Million)
Figure 174: Global Standalone Carrier Wi-Fi Hotspot Unit Shipments: 2017 =
=96 2030 (Thousands of Units)
Figure 175: Global Standalone Carrier Wi-Fi Hotspot Unit Shipment Revenue: =
2017 =96 2030 ($ Million)
Figure 176: Global Managed Carrier Wi-Fi Offload Hotspot Unit Shipments: 20=
17 =96 2030 (Thousands of Units)
Figure 177: Global Managed Carrier Wi-Fi Offload Unit Shipment Revenue: 201=
7 =96 2030 ($ Million)
Figure 178: Global C-RAN Revenue: 2017 =96 2030 ($ Million)
Figure 179: Global C-RAN Revenue by Submarket: 2017 =96 2030 ($ Million)
Figure 180: Global RRH Unit Shipments: 2017 =96 2030 (Thousands of Units)
Figure 181: Global RRH Unit Shipment Revenue: 2017 =96 2030 ($ Million)
Figure 182: Global C-RAN BBU Shipments: 2017 =96 2030 (Thousands of Units)
Figure 183: Global C-RAN BBU  Shipment Revenue: 2017 =96 2030 ($ Million)
Figure 184: Global C-RAN Revenue by Air Interface Technology: 2017 =96 2030=
 ($ Million)
Figure 185: Global RRH Unit Shipments by Air Interface Technology: 2017 =96=
 2030 (Thousands of Units)
Figure 186: Global RRH Unit Shipment Revenue by Air Interface Technology: 2=
017 =96 2030 ($ Million)
Figure 187: Global C-RAN BBU Shipments by Air Interface Technology: 2017 =
=96 2030 (Thousands of Units)
Figure 188: Global C-RAN BBU Shipment Revenue by Air Interface Technology: =
2017 =96 2030 ($ Million)
Figure 189: Global C-RAN Revenue in 3G & LTE Networks: 2017 =96 2030 ($ Mil=
lion)
Figure 190: Global 3G & LTE RRH Unit Shipments: 2017 =96 2030 (Thousands of=
 Units)
Figure 191: Global 3G & LTE RRH Unit Shipment Revenue: 2017 =96 2030 ($ Mil=
lion)
Figure 192: Global 3G & LTE C-RAN BBU Shipments: 2017 =96 2030 (Thousands o=
f Units)
Figure 193: Global 3G & LTE C-RAN BBU Shipment Revenue: 2017 =96 2030 ($ Mi=
llion)
Figure 194: Global C-RAN Revenue in 5G NR Networks: 2019 =96 2030 ($ Millio=
n)
Figure 195: Global 5G NR RRH Unit Shipments: 2019 =96 2030 (Thousands of Un=
its)
Figure 196: Global 5G NR RRH Unit Shipment Revenue: 2019 =96 2030 ($ Millio=
n)
Figure 197: Global 5G NR C-RAN BBU Shipments: 2019 =96 2030 (Thousands of U=
nits)
Figure 198: Global 5G NR C-RAN BBU Shipment Revenue: 2019 =96 2030 ($ Milli=
on)
Figure 199: Global RRH Unit Shipments by Deployment Model: 2017 =96 2030 (T=
housands of Units)
Figure 200: Global RRH Unit Shipment Revenue by Deployment Model: 2017 =96 =
2030 ($ Million)
Figure 201: Global Indoor RRH Unit Shipments: 2017 =96 2030 (Thousands of U=
nits)
Figure 202: Global Indoor RRH Unit Shipment Revenue: 2017 =96 2030 ($ Milli=
on)
Figure 203: Global Outdoor RRH Unit Shipments: 2017 =96 2030 (Thousands of =
Units)
Figure 204: Global Outdoor RRH Unit Shipment Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 205: Global RRH Unit Shipments by Cell Size: 2017 =96 2030 (Thousand=
s of Units)
Figure 206: Global RRH Unit Shipment Revenue by Cell Size: 2017 =96 2030 ($=
 Million)
Figure 207: Global Small Cell RRH Unit Shipments: 2017 =96 2030 (Thousands =
of Units)
Figure 208: Global Small Cell RRH Unit Shipment Revenue: 2017 =96 2030 ($ M=
illion)
Figure 209: Global Macrocell RRH Unit Shipments: 2017 =96 2030 (Thousands o=
f Units)
Figure 210: Global Macrocell RRH Unit Shipment Revenue: 2017 =96 2030 ($ Mi=
llion)
Figure 211: Global C-RAN Fronthaul Revenue: 2017 =96 2030 ($ Million)
Figure 212: Global C-RAN Fronthaul Revenue by Technology: 2017 =96 2030 ($ =
Million)
Figure 213: Global Dedicated Fiber Fronthaul Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 214: Global WDM Fronthaul Revenue: 2017 =96 2030 ($ Million)
Figure 215: Global OTN & PON Fronthaul Revenue: 2017 =96 2030 ($ Million)
Figure 216: Global Ethernet Fronthaul Revenue: 2017 =96 2030 ($ Million)
Figure 217: Global Microwave Fronthaul Revenue: 2017 =96 2030 ($ Million)
Figure 218: Global Millimeter Wave Fronthaul Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 219: Global G.Fast & Other Technologies Fronthaul Revenue: 2017 =96 =
2030 ($ Million)
Figure 220: Global DAS Node Unit Shipments: 2017 =96 2030 (Thousands of Uni=
ts)
Figure 221: Global DAS Node Unit Shipment Revenue: 2017 =96 2030 ($ Million)
Figure 222: Global DAS Node Unit Shipments by Deployment Model: 2017 =96 20=
30 (Thousands of Units)
Figure 223: Global DAS Node Unit Shipment Revenue by Deployment Model: 2017=
 =96 2030 ($ Million)
Figure 224: Global Indoor DAS Node Unit Shipments: 2017 =96 2030 (Thousands=
 of Units)
Figure 225: Global Indoor DAS Node Unit Shipment Revenue: 2017 =96 2030 ($ =
Million)
Figure 226: Global Outdoor DAS Node Unit Shipments: 2017 =96 2030 (Thousand=
s of Units)
Figure 227: Global Outdoor DAS Node Unit Shipment Revenue: 2017 =96 2030 ($=
 Million)
Figure 228: Wireless Network Infrastructure Revenue by Region: 2017 =96 203=
0 ($ Million)
Figure 229: Standalone Macrocell Base Station Shipments by Region: 2017 =96=
 2030 (Thousands of Units)
Figure 230: Standalone Macrocell Base Station Shipment Revenue by Region: 2=
017 =96 2030 ($ Million)
Figure 231: 2G & 3G Macrocell BSC Revenue by Region: 2017 =96 2030 ($ Milli=
on)
Figure 232: Mobile Core Revenue by Region: 2017 =96 2030 ($ Million)
Figure 233: Macrocell Backhaul Revenue by Region: 2017 =96 2030 ($ Million)
Figure 234: Small Cell Unit Shipments by Region: 2017 =96 2030 (Thousands o=
f Units)
Figure 235: Small Cell Unit Shipment Revenue by Region: 2017 =96 2030 ($ Mi=
llion)
Figure 236: Small Cell Backhaul Revenue by Region: 2017 =96 2030 ($ Million)
Figure 237: Carrier Wi-Fi Access Point Unit Shipments by Region: 2017 =96 2=
030 (Thousands of Units)
Figure 238: Carrier Wi-Fi Access Point Unit Shipment Revenue by Region: 201=
7 =96 2030 ($ Million)
Figure 239: Carrier Wi-Fi Access Point Controller Unit Shipments by Region:=
 2017 =96 2030 (Thousands of Units)
Figure 240: Carrier Wi-Fi Access Point Controller Unit Shipment Revenue by =
Region: 2017 =96 2030 ($ Million)
Figure 241: RRH Unit Shipments by Region: 2017 =96 2030 (Thousands of Units)
Figure 242: RRH Shipment Revenue by Region: 2017 =96 2030 ($ Million)
Figure 243: C-RAN BBU Shipments by Region: 2017 =96 2030 (Thousands of Unit=
s)
Figure 244: C-RAN BBU Shipment Revenue by Region: 2017 =96 2030 ($ Million)
Figure 245: C-RAN Fronthaul Revenue by Region: 2017 =96 2030 ($ Million)
Figure 246: DAS Node Unit Shipments by Region: 2017 =96 2030 (Thousands of =
Units)
Figure 247: DAS Node Unit Shipment Revenue by Region: 2017 =96 2030 ($ Mill=
ion)
Figure 248: Asia Pacific Wireless Network Infrastructure Revenue: 2017 =96 =
2030 ($ Million)
Figure 249: Asia Pacific Standalone Macrocell Base Station Shipments: 2017 =
=96 2030 (Thousands of Units)
Figure 250: Asia Pacific Standalone Macrocell Base Station Shipment Revenue=
: 2017 =96 2030 ($ Million)
Figure 251: Asia Pacific 2G & 3G Macrocell BSC Revenue: 2017 =96 2030 ($ Mi=
llion)
Figure 252: Asia Pacific Mobile Core Revenue: 2017 =96 2030 ($ Million)
Figure 253: Asia Pacific Macrocell Backhaul Revenue: 2017 =96 2030 ($ Milli=
on)
Figure 254: Asia Pacific Small Cell Unit Shipments: 2017 =96 2030 (Thousand=
s of Units)
Figure 255: Asia Pacific Small Cell Unit Shipment Revenue: 2017 =96 2030 ($=
 Million)
Figure 256: Asia Pacific Small Cell Backhaul Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 257: Asia Pacific Carrier Wi-Fi Access Point Unit Shipments: 2017 =
=96 2030 (Thousands of Units)
Figure 258: Asia Pacific Carrier Wi-Fi Access Point Unit Shipment Revenue: =
2017 =96 2030 ($ Million)
Figure 259: Asia Pacific Carrier Wi-Fi Access Point Controller Unit Shipmen=
ts: 2017 =96 2030 (Thousands of Units)
Figure 260: Asia Pacific Carrier Wi-Fi Access Point Controller Unit Shipmen=
t Revenue: 2017 =96 2030 ($ Million)
Figure 261: Asia Pacific RRH Unit Shipments: 2017 =96 2030 (Thousands of Un=
its)
Figure 262: Asia Pacific RRH Unit Shipment Revenue: 2017 =96 2030 ($ Millio=
n)
Figure 263: Asia Pacific C-RAN BBU Shipments: 2017 =96 2030 (Thousands of U=
nits)
Figure 264: Asia Pacific C-RAN BBU Shipment Revenue: 2017 =96 2030 ($ Milli=
on)
Figure 265: Asia Pacific C-RAN Fronthaul Revenue: 2017 =96 2030 ($ Million)
Figure 266: Asia Pacific DAS Node Unit Shipments: 2017 =96 2030 (Thousands =
of Units)
Figure 267: Asia Pacific DAS Node Unit Shipment Revenue: 2017 =96 2030 ($ M=
illion)
Figure 268: Eastern Europe Wireless Network Infrastructure Revenue: 2017 =
=96 2030 ($ Million)
Figure 269: Eastern Europe Standalone Macrocell Base Station Shipments: 201=
7 =96 2030 (Thousands of Units)
Figure 270: Eastern Europe Standalone Macrocell Base Station Shipment Reven=
ue: 2017 =96 2030 ($ Million)
Figure 271: Eastern Europe 2G & 3G Macrocell BSC Revenue: 2017 =96 2030 ($ =
Million)
Figure 272: Eastern Europe Mobile Core Revenue: 2017 =96 2030 ($ Million)
Figure 273: Eastern Europe Macrocell Backhaul Revenue: 2017 =96 2030 ($ Mil=
lion)
Figure 274: Eastern Europe Small Cell Unit Shipments: 2017 =96 2030 (Thousa=
nds of Units)
Figure 275: Eastern Europe Small Cell Unit Shipment Revenue: 2017 =96 2030 =
($ Million)
Figure 276: Eastern Europe Small Cell Backhaul Revenue: 2017 =96 2030 ($ Mi=
llion)
Figure 277: Eastern Europe Carrier Wi-Fi Access Point Unit Shipments: 2017 =
=96 2030 (Thousands of Units)
Figure 278: Eastern Europe Carrier Wi-Fi Access Point Unit Shipment Revenue=
: 2017 =96 2030 ($ Million)
Figure 279: Eastern Europe Carrier Wi-Fi Access Point Controller Unit Shipm=
ents: 2017 =96 2030 (Thousands of Units)
Figure 280: Eastern Europe Carrier Wi-Fi Access Point Controller Unit Shipm=
ent Revenue: 2017 =96 2030 ($ Million)
Figure 281: Eastern Europe RRH Unit Shipments: 2017 =96 2030 (Thousands of =
Units)
Figure 282: Eastern Europe RRH Unit Shipment Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 283: Eastern Europe C-RAN BBU Shipments: 2017 =96 2030 (Thousands of=
 Units)
Figure 284: Eastern Europe C-RAN BBU Shipment Revenue: 2017 =96 2030 ($ Mil=
lion)
Figure 285: Eastern Europe C-RAN Fronthaul Revenue: 2017 =96 2030 ($ Millio=
n)
Figure 286: Eastern Europe DAS Node Unit Shipments: 2017 =96 2030 (Thousand=
s of Units)
Figure 287: Eastern Europe DAS Node Unit Shipment Revenue: 2017 =96 2030 ($=
 Million)
Figure 288: Latin & Central America Wireless Network Infrastructure Revenue=
: 2017 =96 2030 ($ Million)
Figure 289: Latin & Central America Standalone Macrocell Base Station Shipm=
ents: 2017 =96 2030 (Thousands of Units)
Figure 290: Latin & Central America Standalone Macrocell Base Station Shipm=
ent Revenue: 2017 =96 2030 ($ Million)
Figure 291: Latin & Central America 2G & 3G Macrocell BSC Revenue: 2017 =96=
 2030 ($ Million)
Figure 292: Latin & Central America Mobile Core Revenue: 2017 =96 2030 ($ M=
illion)
Figure 293: Latin & Central America Macrocell Backhaul Revenue: 2017 =96 20=
30 ($ Million)
Figure 294: Latin & Central America Small Cell Unit Shipments: 2017 =96 203=
0 (Thousands of Units)
Figure 295: Latin & Central America Small Cell Unit Shipment Revenue: 2017 =
=96 2030 ($ Million)
Figure 296: Latin & Central America Small Cell Backhaul Revenue: 2017 =96 2=
030 ($ Million)
Figure 297: Latin & Central America Carrier Wi-Fi Access Point Unit Shipmen=
ts: 2017 =96 2030 (Thousands of Units)
Figure 298: Latin & Central America Carrier Wi-Fi Access Point Unit Shipmen=
t Revenue: 2017 =96 2030 ($ Million)
Figure 299: Latin & Central America Carrier Wi-Fi Access Point Controller U=
nit Shipments: 2017 =96 2030 (Thousands of Units)
Figure 300: Latin & Central America Carrier Wi-Fi Access Point Controller U=
nit Shipment Revenue: 2017 =96 2030 ($ Million)
Figure 301: Latin & Central America RRH Unit Shipments: 2017 =96 2030 (Thou=
sands of Units)
Figure 302: Latin & Central America RRH Unit Shipment Revenue: 2017 =96 203=
0 ($ Million)
Figure 303: Latin & Central America C-RAN BBU Shipments: 2017 =96 2030 (Tho=
usands of Units)
Figure 304: Latin & Central America C-RAN BBU Shipment Revenue: 2017 =96 20=
30 ($ Million)
Figure 305: Latin & Central America C-RAN Fronthaul Revenue: 2017 =96 2030 =
($ Million)
Figure 306: Latin & Central America DAS Node Unit Shipments: 2017 =96 2030 =
(Thousands of Units)
Figure 307: Latin & Central America DAS Node Unit Shipment Revenue: 2017 =
=96 2030 ($ Million)
Figure 308: Middle East & Africa Wireless Network Infrastructure Revenue: 2=
017 =96 2030 ($ Million)
Figure 309: Middle East & Africa Standalone Macrocell Base Station Shipment=
s: 2017 =96 2030 (Thousands of Units)
Figure 310: Middle East & Africa Standalone Macrocell Base Station Shipment=
 Revenue: 2017 =96 2030 ($ Million)
Figure 311: Middle East & Africa 2G & 3G Macrocell BSC Revenue: 2017 =96 20=
30 ($ Million)
Figure 312: Middle East & Africa Mobile Core Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 313: Middle East & Africa Macrocell Backhaul Revenue: 2017 =96 2030 =
($ Million)
Figure 314: Middle East & Africa Small Cell Unit Shipments: 2017 =96 2030 (=
Thousands of Units)
Figure 315: Middle East & Africa Small Cell Unit Shipment Revenue: 2017 =96=
 2030 ($ Million)
Figure 316: Middle East & Africa Small Cell Backhaul Revenue: 2017 =96 2030=
 ($ Million)
Figure 317: Middle East & Africa Carrier Wi-Fi Access Point Unit Shipments:=
 2017 =96 2030 (Thousands of Units)
Figure 318: Middle East & Africa Carrier Wi-Fi Access Point Unit Shipment R=
evenue: 2017 =96 2030 ($ Million)
Figure 319: Middle East & Africa Carrier Wi-Fi Access Point Controller Unit=
 Shipments: 2017 =96 2030 (Thousands of Units)
Figure 320: Middle East & Africa Carrier Wi-Fi Access Point Controller Unit=
 Shipment Revenue: 2017 =96 2030 ($ Million)
Figure 321: Middle East & Africa RRH Unit Shipments: 2017 =96 2030 (Thousan=
ds of Units)
Figure 322: Middle East & Africa RRH Unit Shipment Revenue: 2017 =96 2030 (=
$ Million)
Figure 323: Middle East & Africa C-RAN BBU Shipments: 2017 =96 2030 (Thousa=
nds of Units)
Figure 324: Middle East & Africa C-RAN BBU Shipment Revenue: 2017 =96 2030 =
($ Million)
Figure 325: Middle East & Africa C-RAN Fronthaul Revenue: 2017 =96 2030 ($ =
Million)
Figure 326: Middle East & Africa DAS Node Unit Shipments: 2017 =96 2030 (Th=
ousands of Units)
Figure 327: Middle East & Africa DAS Node Unit Shipment Revenue: 2017 =96 2=
030 ($ Million)
Figure 328: North America Wireless Network Infrastructure Revenue: 2017 =96=
 2030 ($ Million)
Figure 329: North America Standalone Macrocell Base Station Shipments: 2017=
 =96 2030 (Thousands of Units)
Figure 330: North America Standalone Macrocell Base Station Shipment Revenu=
e: 2017 =96 2030 ($ Million)
Figure 331: North America 2G & 3G Macrocell BSC Revenue: 2017 =96 2030 ($ M=
illion)
Figure 332: North America Mobile Core Revenue: 2017 =96 2030 ($ Million)
Figure 333: North America Macrocell Backhaul Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 334: North America Small Cell Unit Shipments: 2017 =96 2030 (Thousan=
ds of Units)
Figure 335: North America Small Cell Unit Shipment Revenue: 2017 =96 2030 (=
$ Million)
Figure 336: North America Small Cell Backhaul Revenue: 2017 =96 2030 ($ Mil=
lion)
Figure 337: North America Carrier Wi-Fi Access Point Unit Shipments: 2017 =
=96 2030 (Thousands of Units)
Figure 338: North America Carrier Wi-Fi Access Point Unit Shipment Revenue:=
 2017 =96 2030 ($ Million)
Figure 339: North America Carrier Wi-Fi Access Point Controller Unit Shipme=
nts: 2017 =96 2030 (Thousands of Units)
Figure 340: North America Carrier Wi-Fi Access Point Controller Unit Shipme=
nt Revenue: 2017 =96 2030 ($ Million)
Figure 341: North America RRH Unit Shipments: 2017 =96 2030 (Thousands of U=
nits)
Figure 342: North America RRH Unit Shipment Revenue: 2017 =96 2030 ($ Milli=
on)
Figure 343: North America C-RAN BBU Shipments: 2017 =96 2030 (Thousands of =
Units)
Figure 344: North America C-RAN BBU Shipment Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 345: North America C-RAN Fronthaul Revenue: 2017 =96 2030 ($ Million)
Figure 346: North America DAS Node Unit Shipments: 2017 =96 2030 (Thousands=
 of Units)
Figure 347: North America DAS Node Unit Shipment Revenue: 2017 =96 2030 ($ =
Million)
Figure 348: Western Europe Wireless Network Infrastructure Revenue: 2017 =
=96 2030 ($ Million)
Figure 349: Western Europe Standalone Macrocell Base Station Shipments: 201=
7 =96 2030 (Thousands of Units)
Figure 350: Western Europe Standalone Macrocell Base Station Shipment Reven=
ue: 2017 =96 2030 ($ Million)
Figure 351: Western Europe 2G & 3G Macrocell BSC Revenue: 2017 =96 2030 ($ =
Million)
Figure 352: Western Europe Mobile Core Revenue: 2017 =96 2030 ($ Million)
Figure 353: Western Europe Macrocell Backhaul Revenue: 2017 =96 2030 ($ Mil=
lion)
Figure 354: Western Europe Small Cell Unit Shipments: 2017 =96 2030 (Thousa=
nds of Units)
Figure 355: Western Europe Small Cell Unit Shipment Revenue: 2017 =96 2030 =
($ Million)
Figure 356: Western Europe Small Cell Backhaul Revenue: 2017 =96 2030 ($ Mi=
llion)
Figure 357: Western Europe Carrier Wi-Fi Access Point Unit Shipments: 2017 =
=96 2030 (Thousands of Units)
Figure 358: Western Europe Carrier Wi-Fi Access Point Unit Shipment Revenue=
: 2017 =96 2030 ($ Million)
Figure 359: Western Europe Carrier Wi-Fi Access Point Controller Unit Shipm=
ents: 2017 =96 2030 (Thousands of Units)
Figure 360: Western Europe Carrier Wi-Fi Access Point Controller Unit Shipm=
ent Revenue: 2017 =96 2030 ($ Million)
Figure 361: Western Europe RRH Unit Shipments: 2017 =96 2030 (Thousands of =
Units)
Figure 362: Western Europe RRH Unit Shipment Revenue: 2017 =96 2030 ($ Mill=
ion)
Figure 363: Western Europe C-RAN BBU Shipments: 2017 =96 2030 (Thousands of=
 Units)
Figure 364: Western Europe C-RAN BBU Shipment Revenue: 2017 =96 2030 ($ Mil=
lion)
Figure 365: Western Europe C-RAN Fronthaul Revenue: 2017 =96 2030 ($ Millio=
n)
Figure 366: Western Europe DAS Node Unit Shipments: 2017 =96 2030 (Thousand=
s of Units)
Figure 367: Western Europe DAS Node Unit Shipment Revenue: 2017 =96 2030 ($=
 Million)
Figure 368: Baseband Functional Split Options for C-RAN
Figure 369: Global Enterprise RAN Investments: 2017 =96 2030 ($ Million)
Figure 370: SWOT Analysis of the Wireless Network Infrastructure Market

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