Categories
Analysis Forecast Coronavirus COVID-19 Industry Impact Market Reports News

“NFV, SDN & Wireless Network Infrastructure Market: 2017 – 2030 – Opportunities, Challenges, Strategies and Forecasts”

Driven by the promise of TCO (Total Cost of Ownership) reduction, mobile operators are aggressively jumping on the NFV and SDN bandwagon, targeting deployments across a multitude of areas.  The NFV and SDN investments in service provider networks – both mobile and fixed-line – will account for nearly $22 Billion by the end of 2020. Approximately 40% of these investments will be directed towards the mobile core, IMS/VoLTE and RAN segments of mobile operator networks.

Spanning over 2,000 pages, the “NFV, SDN & Wireless Network Infrastructure Market: 2017 – 2030 – Opportunities, Challenges, Strategies and Forecasts” report package encompasses three comprehensive reports covering covering NFV, SDN, conventional 2G, 3G, 4G & 5G wireless network infrastructure, and HetNet (Heterogeneous Network) infrastructure:
– The SDN, NFV & Network Virtualization Ecosystem: 2017 – 2030 – Opportunities, Challenges, Strategies & Forecasts
– The Wireless Network Infrastructure Ecosystem: 2017 – 2030 – Macrocell RAN, Small Cells, C-RAN, RRH, DAS, Carrier Wi-Fi, Mobile Core, Backhaul & Fronthaul
– The HetNet Ecosystem (Small Cells, Carrier Wi-Fi, C-RAN & DAS): 2017 – 2030 – Opportunities, Challenges, Strategies & Forecasts

Report Scope

Wireless Network Infrastructure Topics
– 2G (GSM and CDMA) technology and market trends
– 3G (W-CDMA/HSPA, TD-SCDMA and CDMA-2000) technology and market trends
– 4G (LTE, LTE-Advanced, LTE-Advanced Pro and WiMAX) technology and market trends
– 5G (IMT-2020) technology and market trends
– Mobile core technology and market trends
– Mobile transport (backhaul and fronthaul) technology and market trends
– HetNet (carrier Wi-Fi, small cell, C-RAN and DAS) technology and market trends
– Analysis of key trends such as NFV, Cloud RAN, enterprise RAN, millimeter wave radio access, unlicensed and shared access small cells, neutral hosting, VoLTE, LTE Broadcast and network slicing
– Market drivers for wireless network infrastructure investments
– Challenges and barriers to the market
– Profiles and strategies of over 550 wireless network infrastructure vendors
– Global and regional market analysis and forecasts
– SWOT analysis of the wireless network infrastructure market

Get Free PDF Sample Copy of this report back to perceive the structure of the whole report:

(Including Full TOC, List of Tables & Figures, Chart) @https://www.supplydemandmarketresearch.com/home/contact/35993?ref=Sample-and-Brochure&toccode=SDMRTE35993

NFV & SDN Topics
– SDN, NFV and network virtualization ecosystem
– Market drivers and barriers
– Enabling technologies, protocols, architecture and key trends
– SDN and NFV use cases across service provider, data center and enterprise networks
– Commercial SDN and NFV deployments – including 10 comprehensive case studies
– Review of key functional areas including uCPE/vCPE, SD-WAN, data center SDN, vEPC, vIMS, Cloud RAN and vCDN
– Assessment of CapEx savings potential of service provider SDN and NFV investments
– Management and orchestration platforms for software-centric networks
– Standardization, regulatory and collaborative initiatives
– Industry roadmap and value chain
– Profiles and strategies of over 270 ecosystem players including SDN/NFV specialists
– Strategic recommendations for enabling technology providers, network infrastructure vendors, IT giants, pure-play SDN/NFV specialists, enterprises, data center operators and service providers
– Global and regional market analysis and forecasts

Key Questions Answered:
The report package provides answers to the following key questions:
– How big is the 2G, 3G, 4G and 5G wireless network infrastructure opportunity?
– How will LTE, LTE-Advanced, LTE-Advanced Pro and 5G deployments proceed, and how long will 2G/3G technologies coexist with LTE and 5G networks?
– What is the opportunity for mobile transport – backhaul and fronthaul – networking gear?
– How will the market shape for small cell, C-RAN, carrier Wi-Fi and DAS deployments?
– How big is the SDN, NFV and network virtualization opportunity?
– What is the status of SDN and NFV deployments across service provider, data center and enterprise networks?
– How big is the opportunity for mobile operator use cases, including virtualized mobile core and Cloud RAN?
– How are service provider-led initiatives driving SDN and NFV investments?
– How does regulation impact the adoption of software-centric networks?
– What level of CapEx savings can SDN and NFV facilitate for service providers?
– Do SDN and NFV pose a threat to traditional network infrastructure vendors?
– Who are the key market players and what are their strategies?
– What strategies should enabling technology providers, network infrastructure vendors, SDN/NFV specialists,  mobile operators and other ecosystem players adopt to remain competitive?

Grab Best Discount on This Market research report [Single User ]| Multi User | company Users] @https://www.supplydemandmarketresearch.com/home/contact/35993?ref=Discount&toccode=SDMRTE35993

Table of Content

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

2  Chapter  2:  An  Overview  of  SDN,  NFV  &  Network  Virtualization
2.1  What  is  Network  Virtualization?
2.2  What  is  SDN  (Software  Defined  Networking)?
2.3  SDN  Protocols
2.3.1  OpenFlow
2.3.2  BGP-TE  (Border  Gateway  Protocol  –  Traffic  Engineering)
2.3.3  PCEP  (Path  Computation  Element  Protocol)
2.3.4  I2RS  (Interface  to  the  Routing  System)
2.3.5  VxLAN  (Virtual  Extensible  LAN)
2.3.6  ALTO  (Application  Layer  Traffic  Optimization)
2.3.7  IETF  Software  Driven  Networks
2.4  SDN  Implementation  Approaches
2.4.1  Network  Virtualization  Approach
2.4.2  Evolutionary  Approach
2.4.3  The  “Central  Control”  Approach
2.5  What  is  NFV  (Network  Functions  Virtualization)?
2.6  NFV  Enabling  Technologies
2.6.1  Cloud  Computing  and  Network  Virtualization
2.6.2  Open  Management  and  Control  Protocols
2.6.3  Industry  Standard  High-Volume  Servers
2.7  NFV  Implementation  Architecture
2.7.1  NFVI  (NFV  Infrastructure)
2.7.1.1  Hardware  Resources
2.7.1.2  Virtualized  Resources
2.7.2  VNFs  (Virtualized  Network  Functions)
2.7.3  NFV-MANO  (NFV-Management  and  Orchestration)
2.7.3.1  VIM  (Virtualized  Infrastructure  Manager)
2.7.3.2  NFVO  (NFV  Orchestrator)
2.7.3.3  VNF  Manager
2.8  How  SDN  and  NFV  Differ  from  Each  Other?
2.8.1  Similarities  and  Differences
2.8.2  Can  Both  Technologies  Complement  Each  Other?
2.8.3  How  Are  Vendors  Positioning  their  Solutions?
2.9  Market  Drivers
2.9.1  Leveraging  Generic  Low-Cost  Hardware
2.9.2  Multi-Tenancy  on  Same  Hardware
2.9.3  Reduced  Power  Consumption
2.9.4  Faster  TTM  (Time-to-Market)
2.9.5  Improved  Operational  Efficiency  &  Performance
2.9.6  Centralized  Provisioning  and  Network  Control
2.9.7  Ability  to  Launch  New  Services  &  Virtual  Networks  Quickly
2.9.8  Dynamic  Scaling  of  Services
2.9.9  Opening  the  Door  to  Multi-vendor  Interoperability
2.9.10  CapEx  and  OpEx  Reduction
2.9.11  Fast  Troubleshooting  and  Improved  Diagnostics
2.9.12  Vendor  Support
2.10  Market  Barriers
2.10.1  Lack  of  Standardization  &  Technology  Maturity
2.10.2  Uncertain  Cost-Benefits  Tradeoffs
2.10.3  NFV  May  Slow/Delay  Traffic
2.10.4  Will  Multi-vendor  Interoperability  Really  Work?
2.10.5  Co-Existence  with  Legacy  Networks:  Integration  Challenges

3  Chapter  3:  SDN  &  NFV  Use  Case  Scenarios
3.1  Enterprise,  Data  Center  &  Generic  Use  Cases
3.1.1  Network  Virtualization
3.1.2  Data  Center  Optimization
3.1.3  SD-WAN  (Software  Defined  WAN)
3.1.4  Tap  Aggregation
3.1.5  Dynamic  WAN  Re-Routing
3.1.6  Network  Exchange:  Interconnecting  Physical  Networks
3.1.7  Improved  Traffic  Engineering
3.1.8  Converged  Storage
3.2  Service  Provider  Centric  Use  Cases
3.2.1  vRAN  (Virtualized  RAN)  &  Cloud  RAN
3.2.2  Wireline  Fixed  Access  Network  Virtualization
3.2.3  vCPE/uCPE  (Virtualized  &  Universal  Customer  Premises  Equipment)
3.2.4  Mobile  Backhaul  Virtualization
3.2.5  Mobile  Core  &  Gi-LAN  Virtualization
3.2.6  IMS  &  VoLTE  Virtualization
3.2.7  DPI  Virtualization
3.2.8  Policy  Control  Virtualization
3.2.9  OSS/BSS  Virtualization
3.2.10  Virtual  Routers
3.2.11  Virtualization  &  Control  of  Security  Functions
3.2.12  Virtualization  of  CDNs  (Content  Delivery  Networks)
3.2.13  MEC  (Multi-Access  Edge  Computing)
3.2.14  Network  Slicing
3.2.15  Service  Chaining
3.2.16  Bandwidth-on-Demand
3.2.17  Packet-Optical  Integration
3.2.18  SDN/NFV  Iaas  (Infrastructure-as-a-Service)
3.2.19  VNFaas  (VNF-as-a-Service)
3.2.20  VNPaaS  (Virtual  Network-Platform-as-a-Service)

4  Chapter  4:  SDN  &  NFV  Deployment  Case  Studies  &  Commitments
4.1  Case  Studies
4.1.1  AT&T
4.1.1.1  Overview
4.1.1.2  Key  Vendors
4.1.1.3  SDN/NFV  Deployment  Review
4.1.2  Baidu
4.1.2.1  Overview
4.1.2.2  Key  Vendors
4.1.2.3  SDN/NFV  Deployment  Review
4.1.3  CenturyLink
4.1.3.1  Overview
4.1.3.2  Key  Vendors
4.1.3.3  SDN/NFV  Deployment  Review
4.1.4  Equinix
4.1.4.1  Overview
4.1.4.2  Key  Vendors
4.1.4.3  SDN/NFV  Deployment  Review
4.1.5  Google
4.1.5.1  Overview
4.1.5.2  Key  Vendors
4.1.5.3  SDN/NFV  Deployment  Review
4.1.6  NTT  Group
4.1.6.1  Overview
4.1.6.2  Key  Vendors
4.1.6.3  SDN/NFV  Deployment  Review
4.1.7  SK  Telecom
4.1.7.1  Overview
4.1.7.2  Key  Vendors
4.1.7.3  SDN/NFV  Deployment  Review
4.1.8  Telefónica  Group
4.1.8.1  Overview
4.1.8.2  Key  Vendors
4.1.8.3  SDN/NFV  Deployment  Review
4.1.9  Verizon  Communications
4.1.9.1  Overview
4.1.9.2  Key  Vendors
4.1.9.3  SDN/NFV  Deployment  Review
4.1.10  Vodafone  Group
4.1.10.1  Overview
4.1.10.2  Key  Vendors
4.1.10.3  SDN/NFV  Deployment  Review
4.2  Review  of  Other  SDN  &  NFV  Commitments
4.2.1  Service  Providers
4.2.1.1  A1  Telekom  Austria  Group
4.2.1.2  Altice  Group
4.2.1.3  ASPIDER-NGI
4.2.1.4  Axiata  Group
4.2.1.5  BCE  (Bell  Canada)
4.2.1.6  BT  Group
4.2.1.7  China  Mobile
4.2.1.8  China  Telecom
4.2.1.9  China  Unicom
4.2.1.10  Colt  Technology  Services  Group
4.2.1.11  Comcast
4.2.1.12  Digicel
4.2.1.13  DT  (Deutsche  Telekom)
4.2.1.14  Etisalat
4.2.1.15  IIJ  (Internet  Initiative  Japan)
4.2.1.16  KDDI  Corporation
4.2.1.17  KPN
4.2.1.18  KT  Corporation
4.2.1.19  LG  Uplus
4.2.1.20  NAKA  Mobile
4.2.1.21  Ngena
4.2.1.22  Ooredoo
4.2.1.23  Orange
4.2.1.24  PCCW  Global
4.2.1.25  Singtel
4.2.1.26  SoftBank  Group
4.2.1.27  Sprint  Corporation
4.2.1.28  STC  (Saudi  Telecom  Company)
4.2.1.29  Swisscom
4.2.1.30  Telecom  Italia
4.2.1.31  Telenor  Group
4.2.1.32  Telstra
4.2.1.33  Turk  Telekom
4.2.1.34  Windstream  Communications
4.2.2  Enterprises  &  Data  Centers
4.2.2.1  Internet  Giants
4.2.2.2  Data  Center  Operators
4.2.2.3  Large  Enterprises
4.2.2.4  SMEs  (Small  and  Medium-Sized  Enterprises)

5  Chapter  5:  Industry  Roadmap  and  Value  Chain
5.1  Industry  Roadmap to be continuedhttps://www.supplydemandmarketresearch.com/the-nfv-sdn-wireless-network-infrastructure-market-35993

Contact US

Supply Demand Market Research
Mr. Charles Lee
302-20 Misssisauga Valley, Missisauga,
L5A 3S1, Toronto, Canada
Ph. +1-276-477-5910
Email [email protected]

 

Categories
Analysis Forecast Coronavirus COVID-19 Industry Impact Market Price Analysis Market Reports News

The “Wireless Network Infrastructure Ecosystem Market- A $56 Billion Opportunity by 2020

The “Wireless Network Infrastructure Ecosystem: 2017 – 2030 – Macrocell RAN, Small Cells, C-RAN, RRH, DAS, Carrier Wi-Fi, Mobile Core, Backhaul & Fronthaul” report presents an in-depth assessment of the wireless network infrastructure ecosystem including enabling technologies, key trends, market drivers, challenges, investment trends, mobile operator revenue potential, regional CapEx commitments, network rollout strategies, future roadmap, value chain, ecosystem player profiles and vendor market share. The report also presents forecasts for wireless network infrastructure investments from 2017 till 2030. The forecasts cover 11 individual submarkets and 6 regions.

Despite a rapid and persistent decline in standalone macrocell RAN infrastructure spending, The wireless network infrastructure market will grow at a CAGR of 2% between 2017 and 2020. Driven by investments in HetNet infrastructure and 5G NR (New Radio) rollouts – beginning in 2019, the market is expected to be worth $56 Billion in annual spending by 2020, up from $53 Billion in 2017.

Key Insight on The “Wireless Network Infrastructure Ecosystem Market

– Despite a rapid and persistent decline in standalone macrocell RAN infrastructure spending, it is estimated that the wireless network infrastructure market will grow at a CAGR of 2% between 2017 and 2020.

– Driven by investments in HetNet infrastructure and 5G NR rollouts – beginning in 2019, the market is expected to be worth $56 Billion in annual spending by 2020, up from $53 Billion in 2017.

– By the end of 2020, C-RAN, small cells, DAS and carrier Wi-Fi, together with 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 Billion in annual service revenue by 2020.

– New market players are beginning to emerge as mobile operators accelerate their 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 the company as an end-to-end provider of 5G-ready mobile network solutions.

Get Free PDF Sample Copy of this report back to perceive the structure of the whole report: (Including Full TOC, List of Tables & Figures, Chart) @ https://www.supplydemandmarketresearch.com/home/contact/38144?ref=Sample-and-Brochure&toccode=SDMRTE38144

Report Scope

Market forecasts are provided for each of the following sub-markets and their subcategories:

Standalone Macrocell RAN
Air Interface Technology Segmentation
– 2G & 3G
– LTE FDD
– TD-LTE
– WiMAX
– 5G NR (New Radio)

Mobile Core
Technology Segmentation
– 3G Packet Core
– HLR (Home Location Register)
– MSS (Mobile Switching Subsystem)
– LTE EPC (Evolved Packet Core)
– WiMAX Mobile Core
– 5G NextGen 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 NR

Deployment Model Segmentation
– Indoor
– Outdoor

RAN Architecture Segmentation
– Standalone
– C-RAN

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 NR

Deployment Model Segmentation
– Indoor
– Outdoor

Cell Size Segmentation
– Small Cells
– Macrocells

Submarket Segmentation
– BBUs (Baseband Units)
– RRHs (Remote Radio Heads)

C-RAN Fronthaul
Technology Segmentation
– Dedicated Fiber
– WDM (Wavelength Division Multiplexing)
– OTN (Optical Transport Network)
– PON (Passive Optical Network)
– Ethernet
– Microwave
– Millimeter Wave
– G.Fast & Others

DAS
Deployment Model Segmentation
– Indoor
– Outdoor

Regional Markets
– Asia Pacific
– Eastern Europe
– Latin & Central America
– Middle East & Africa
– North America
– Western Europe

Key Questions Answered
The report provides answers to the following key questions:
– How big is the 2G, 3G, 4G and 5G wireless network infrastructure opportunity?
– What trends, challenges and barriers are influencing its growth?
– How is the ecosystem evolving by segment and region?
– Which submarkets will see the highest percentage of growth?
– What will the market size be in 2020 and at what rate will it grow?
– How will the market shape for small cell, C-RAN, carrier Wi-Fi and DAS deployments?
– How much service revenue will be generated by mobile operator networks?
– When will 2G and 3G infrastructure spending diminish?
– What is the outlook for LTE and 5G infrastructure investments?
– What are the future prospects of millimeter wave technology for backhaul, fronthaul and RAN deployments?
– Who are the key vendors in the market, what is their market share and what are their strategies?
– What strategies should wireless network infrastructure vendors and mobile operators adopt to remain competitive?

Grab Best Discount on This Market research report [Single User ]| Multi User | company Users] @ https://www.supplydemandmarketresearch.com/home/contact/38144?ref=Discount&toccode=SDMRTE38144 

Table of Content

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

2  Chapter  2:  An  Overview  of  Wireless  Network  Infrastructure
2.1  What  is  Wireless  Network  Infrastructure?
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

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  Networking
3.1.8  Advances  in  Spectrum  Flexibility  &  Carrier  Aggregation:  Driving  HetNet  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

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  América  Móvil  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  Telefónica  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

5  Chapter  5:  Mobile  Network  Subscriptions  &  Service  Revenue  Review to be continued @https://www.supplydemandmarketresearch.com/the-wireless-network-infrastructure-ecosystem-macrocell-ran-small-cells-c-ran-rrh-das-carrier-wi-fi-mobile-core-backhaul-fronthaul-38144

Contact US

Supply Demand Market Research
Mr. Charles Lee
302-20 Misssisauga Valley, Missisauga,
L5A 3S1, Toronto, Canada
Ph. +1-276-477-5910
Email [email protected]

Categories
Analysis Forecast Coronavirus COVID-19 Industry Impact Market Price Analysis News

C-RAN Architecture Networks Market will reach nearly $9 Billion by the end of 2017 with a CAGR of 24% between 2017 and 2020

The “C-RAN (Centralized Radio Access Network) Ecosystem: 2017 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the C-RAN ecosystem including enabling technologies, key trends, market drivers, challenges, standardization, regulatory landscape, deployment models, operator case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents forecasts for C-RAN infrastructure investments from 2017 till 2030. The forecasts cover 3 individual sub-markets and 6 regions.

The global investments in C-RAN architecture networks will reach nearly $9 Billion by the end of 2017. The market is further expected to grow at a CAGR of approximately 24% between 2017 and 2020. These investments will include spending on RRHs (Remote Radio Heads), BBUs (Baseband Units) and fronthaul transport network equipment.

Report Coverage

– C-RAN ecosystem
– Market drivers and barriers
– Key architectural components (RRH, BBU and fronthaul)
– Competing RAN architectures including traditional macrocell base stations, standalone small cells and DAS (Distributed Antenna Systems)
– Key trends including baseband functional splitting, enterprise RAN, vRAN (Virtualized RAN)/Cloud RAN, MEC (Mobile Edge Computing) and RANaaS (RAN-as-a-Service)
– Fronthaul networking technologies and interface options
– C-RAN deployment models and mobile operator case studies
– Regulatory landscape and standardization
– Industry roadmap and value chain
– Profiles and strategies of over 230 leading ecosystem players including enabling technology providers, radio equipment suppliers, BBU vendors, fronthaul network equipment vendors and mobile operators
– Strategic recommendations for ecosystem players including C-RAN solution providers and mobile operators
– Market analysis and forecasts from 2017 till 2030

Get Free PDF Sample Copy of this report back to perceive the structure of the whole report: (Including Full TOC, List of Tables & Figures, Chart) https://www.supplydemandmarketresearch.com/home/contact/38148?ref=Sample-and-Brochure&toccode=SDMRTE38148

Report Scope

Submarket Segmentation
– RRHs (Remote Radio Heads)
– BBUs (Baseband Units)
– Fronthaul

Air Interface Technology Segmentation
– 3G & LTE
– 5G NR (New Radio)

Network Architecture Segmentation
– Non-Virtualized C-RAN
– vRAN/Cloud RAN

Deployment Model Segmentation
– Indoor
– Outdoor

Cell Size Segmentation
– Small Cells
– Macrocells

Fronthaul Transport Network Technology Segmentation
– Dedicated Fiber
– WDM (Wavelength Division Multiplexing)
– OTN (Optical Transport Network)
– PON (Passive Optical Network)
– Ethernet
– Microwave
– Millimeter Wave
– G.Fast & Others

Regional Markets
– Asia Pacific
– Eastern Europe
– Middle East & Africa
– Latin & Central America
– North America
– Western Europe

Key Questions Answered
– How big is the C-RAN opportunity?
– What trends, challenges and barriers are influencing its growth?
– How is the ecosystem evolving by segment and region?
– What will the market size be in 2020 and at what rate will it grow?
– Which submarkets will see the highest percentage of growth?
– How can C-RAN facilitate the management of interference and LTE-Advanced features such as CoMP (Coordinated Multi-Point)?
– What are the benefits and drawbacks of each baseband functional split option?
– How can C-RAN reduce the TCO (Total Cost of Ownership) of RAN deployments?
– What are the prospects of wireless fronthaul technologies?
– Is Ethernet a feasible solution for fronthaul networking?
– How big is the market for vRAN/Cloud RAN networks?
– How can mobile operators future-proof their RAN investments for 5G upgrades?
– Who are the key market players and what are their strategies?
– What strategies should C-RAN solution providers and mobile operators adopt to remain competitive?

Grab Best Discount on this research Report [Single User ]| Multi User | company Users] @ https://www.supplydemandmarketresearch.com/home/contact/38148?ref=Discount&toccode=SDMRTE38148

Key Findings
– Expected to reach nearly $9 Billion in global spending by the end of 2017, C-RAN is increasingly becoming the preferred approach to deploy future mobile networks. The market is further expected to grow at a CAGR of approximately 24% between 2017 and 2020.

– Small cells are also beginning to be deployed in a C-RAN architecture to leverage the benefits of resource pooling and multi-cell coordination. This trend is particularly prevalent in the indoor and enterprise segments, with a number of dedicated vendor solutions such as CommScope’s OneCell, SpiderCloud’s E-RAN, Ericsson’s Radio Dot, and Huawei’s LampSite.

– Mobile operators are exploring multiple baseband functional split options for C-RAN implementation, as they seek to ease the transition to 5G networks while reducing fronthaul costs.

– By the end of 2020, SNS Research estimates that vRAN/Cloud RAN deployments with virtualized baseband processing will account for nearly 20% of all C-RAN investments.

– The vendor arena is continuing to consolidate with several prominent M&A deals such as Mavenir Systems’ recent merger with C-RAN specialist Ranzure Networks, which has positioned the company as an end-to-end provider of 5G-ready mobile network solutions.

TABLE OF CONTENT

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

2  Chapter  2:  An  Overview  of  C-RAN
2.1  What  is  C-RAN?
2.1.1  Decoupling  the  Base  Station
2.1.2  Brief  History
2.2  Competing  RAN  Architectures
2.2.1  Traditional  Macrocells
2.2.2  Small  Cells
2.2.3  DAS  (Distributed  Antenna  Systems)
2.3  Key  Architectural  Components  for  C-RAN
2.3.1  RRH  (Remote  Radio  Head)
2.3.2  BBU  (Baseband  Unit)
2.3.3  Fronthaul
2.4  Baseband  Functional  Split  Approaches
2.4.1  Fully  Centralized  Baseband  Processing:  PHY-RF  Split
2.4.2  Partially  Centralized  Functional  Splits
2.4.2.1  Intra-PHY  Split
2.4.2.2  MAC-PHY  Split
2.4.2.3  Intra-MAC  Split
2.4.2.4  RLC-MAC  Split
2.4.2.5  Intra-RLC  Split
2.4.2.6  PDCP-RLC  Split
2.4.2.7  RRC-PDCP  Split
2.5  Fronthaul  Interface  Options  &  Technologies
2.5.1  Interface  Options
2.5.1.1  CPRI  (Common  Public  Radio  Interface)
2.5.1.2  OBSAI  (Open  Base  Station  Architecture  Initiative)
2.5.1.3  ORI  (Open  Radio  Interface)
2.5.1.4  Ethernet
2.5.2  Transport  Networking  Technologies
2.5.2.1  Dedicated  Fiber  (Dark  Fiber)
2.5.2.2  WDM  (Wavelength  Division  Multiplexing)
2.5.2.3  PON  (Passive  Optical  Network)
2.5.2.4  OTN  (Optical  Transport  Network)
2.5.2.5  Ethernet
2.5.2.6  G.Fast
2.5.2.7  Microwave
2.5.2.8  Millimeter  Wave
2.6  vRAN  (Virtualized  RAN):  Transforming  C-RAN  to  Cloud  RAN
2.6.1  Leveraging  Commodity  Technologies
2.6.2  Moving  RAN  to  the  Cloud
2.7  Market  Growth  Drivers
2.7.1  Capacity  &  Coverage  Improvement:  Addressing  the  Mobile  Data  Traffic  Tsunami
2.7.2  Towards  Greener  RANs:  Cost  Efficiency  &  Energy  Savings
2.7.3  Agile  &  Flexible  Network  Architecture
2.7.4  Enhanced  Support  for  Advanced  RAN  Coordination  Features
2.7.5  The  Benefits  of  Virtualization
2.7.6  Bringing  Intelligence  to  the  Edge:  MEC  (Mobile  Edge  Computing)
2.7.7  Impact  of  5G  Rollouts
2.8  Market  Barriers
2.8.1  Fronthaul  Investments
2.8.2  Virtualization  Challenges
2.8.3  Vendor  Proprietary  Functional  Splits
2.8.4  Migration  From  Legacy  Architectures

3  Chapter  3:  Standardization,  Regulatory  &  Collaborative  Initiatives
3.1  3GPP  (3rd  Generation  Partnership  Project)
3.1.1  Complementary  Features  to  Support  C-RAN
3.1.2  Functional  Splits  for  C-RAN  Implementation  in  5G  Networks
3.2  Broadband  Forum
3.2.1  TR-069  for  Radio  Unit  Management
3.3  CPRI  Initiative
3.3.1  CPRI  Releases  1.4  to  7.0  for  3G  &  LTE  Fronthaul
3.3.2  eCPRI  for  5G  Fronthaul
3.4  ETSI  (European  Telecommunications  Standards  Institute)
3.4.1  ORI  for  Fronthaul
3.4.2  NFV  (Network  Functions  Virtualization)  for  Cloud  RAN
3.4.3  MEC  (Multi-Access  Edge  Computing)
3.4.4  Millimeter  Wave  Transmission  for  Fronthaul  &  Other  Work
3.5  IEEE  (Institute  of  Electrical  and  Electronics  Engineers)
3.5.1  IEEE  802.1CM:  TSN  (Time-Sensitive  Networking)  for  Fronthaul
3.5.2  IEEE  P1904.3:  Standard  for  RoE  (Radio  over  Ethernet)  Encapsulations  and  Mappings
3.5.3  IEEE  1914:  NGFI  (Next  Generation  Fronthaul  Interface)  Working  Group
3.5.4  Other  Standards  &  Work  Groups
3.6  ITU  (International  Telecommunications  Union)
3.6.1  FG  IMT-2020  (Focus  Group  on  IMT-2020)
3.7  MEF  (Metro  Ethernet  Forum)
3.7.1  Ethernet  Transport  for  Small  Cells  &  C-RAN
3.8  NGMN  (Next  Generation  Mobile  Networks)  Alliance
3.8.1  P-CRAN  (Project  Centralized  RAN)
3.8.2  RAN  Evolution  Project
3.8.3  5G  Work  Program  &  Other  Work
3.9  ONF  (Open  Networking  Foundation)  &  ON.Lab  (Open  Networking  Lab)
3.9.1  CORD  (Central  Office  Re-Architected  as  a  Datacenter)
3.9.2  M-CORD  (M-Central  Office  Re-Architected  as  a  Datacenter)
3.10  OSA  (OpenAirInterface  Software  Alliance)
3.10.1  LTE  vRAN  Implementation
3.11  SCF  (Small  Cell  Forum)
3.11.1  Release  8:  Small  Cell  Virtualization
3.11.2  Release  9:  Network  Densification  and  Evolution  to  5G
3.12  TIP  (Telecom  Infra  Project)
3.12.1  OpenCellular  –  Wireless  Access  Design  Platform
3.12.2  Solutions  Integration  –  Unbundled  RAN  Architecture
3.12.3  vRAN  Fronthaul
3.12.4  Open  Optical  Packet  Transport  &  Other  Projects
3.13  xRAN  Consortium
3.13.1  Standardization  for  Software-Based  RAN TO BE CONTINUEDhttps://www.supplydemandmarketresearch.com/the-c-ran-centralized-radio-access-network-ecosystem-opportunities-challenges-strategies-forecasts-38148

 

Supply Demand Market Research
Mr. Charles Lee
302-20 Misssisauga Valley, Missisauga,
L5A 3S1, Toronto, Canada
Ph. +1-276-477-5910
Email [email protected]

Categories
Analysis Forecast Market Price Analysis News

The HetNet Ecosystem (Small Cells, Carrier Wi-Fi, C-RAN & DAS): Opportunities, Challenges, Strategies & Forecasts 2017 – 2030

The “HetNet Ecosystem (Small Cells, Carrier Wi-Fi, C-RAN & DAS): 2017 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the HetNet ecosystem including enabling technologies, key trends, market drivers, challenges, standardization, regulatory landscape, deployment models, use cases, vertical markets, service provider case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents forecasts for HetNet infrastructure investments from 2017 till 2030. The forecasts cover 6 individual submarkets and 6 regions.

The global investments on small cells, carrier Wi-Fi, C-RAN and DAS will reach more than $15 Billion by the end of 2017, as mobile operators remain committed to tackle the continued growth of mobile data traffic and evolving coverage requirements. At present, the HetNet market is facing a paradigm shift with multiple advancements ranging from small cell virtualization and neutral hosting to the adoption of unlicensed and shared spectrum. In conjunction with 5G and LTE Advanced network rollouts, these advancements will fuel the market to grow at a CAGR of over 18% between 2017 and 2020.

“Topics Covered
The report covers the following topics:
– HetNet ecosystem
– Market drivers and barriers
– Enabling technologies and key architectural components for small cells, carrier Wi-Fi, C-RAN and DAS
– Integration, offloading and SON (Self-Organizing Network) technologies
– Key trends including RAN disaggregation; small cell virtualization; unlicensed and shared spectrum usage; and neutral hosting
– Complementary technologies and concepts including millimeter wave radio access; MEC (Mobile Edge Computing); FWA (Fixed Wireless Access); control and user plane separation; and network slicing
– Small cell backhaul and C-RAN fronthaul technologies
– HetNet use cases and deployment models including SCaaS (Small Cells-as-a-Service)
– Enterprise RAN; rural small cells; and tactical small cells for military and public safety applications
– Over 30 case studies of service provider HetNet deployments
– Regulatory landscape and standardization
– Industry roadmap and value chain
– Profiles and strategies of over 500 leading ecosystem players
– Strategic recommendations for HetNet infrastructure vendors and mobile operators
– Market analysis and forecasts from 2017 till 2030

Get Free PDF Sample Copy of this report back to perceive the structure of the whole report: (Including Full TOC, List of Tables & Figures, Chart) https://www.supplydemandmarketresearch.com/home/contact/38149?ref=Sample-and-Brochure&toccode=SDMRTE38149

Report Scope

Market forecasts are provided for each of the following submarkets and their subcategories:
Small Cells
Air Interface Technology Segmentation
– 2G & 3G
– LTE
– 5G NR (New Radio)

Deployment Model Segmentation
– Indoor
– Outdoor

RAN Architecture Segmentation
– Standalone
– C-RAN

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 NR

Deployment Model Segmentation
– Indoor
– Outdoor

Cell Size Segmentation
– Small Cells
– Macrocells

Submarket Segmentation
– BBUs (Baseband Units)
– RRHs (Remote Radio Heads)

C-RAN Fronthaul
Technology Segmentation
– Dedicated Fiber
– WDM (Wavelength Division Multiplexing)
– OTN (Optical Transport Network)
– PON (Passive Optical Network)
– Ethernet
– Microwave
– Millimeter Wave
– G.Fast & Others

DAS
Deployment Model Segmentation
– Indoor
– Outdoor

Regional Markets
– Asia Pacific
– Eastern Europe
– Latin & Central America
– Middle East & Africa
– North America
– Western Europe

Key Questions Answered
The report provides answers to the following key questions:
– How big is the HetNet opportunity?
– What trends, challenges and barriers are influencing its growth?
– How is the ecosystem evolving by segment and region?
– What will the market size be in 2020 and at what rate will it grow?
– Which submarkets will see the highest percentage of growth?
– How can HetNet infrastructure investments improve wireless coverage and alleviate congestion in mobile operator networks?
– Can virtualized small cells reduce the TCO (Total Cost of Ownership) of HetNet deployments?
– How are mobile operators leveraging small cells to deliver cost-effective wireless coverage in rural areas?
– What is the commercial status of unlicensed and shared spectrum technologies?
– How are small cell, DAS and Wi-Fi specialists addressing requirements for multi-operator neutral host networks?
– What are the prospects of microwave and millimeter wave transport networking platforms for small cell backhaul and C-RAN fronthaul?
– Will mobile operators adopt WiGig and other non-3GPP technologies to complement 5G network rollouts?
– Who are the key market players, what is their market share and what are their strategies?
– What strategies should HetNet infrastructure vendors and mobile operators adopt to remain competitive?

Key Findings
– The global investments on small cells, carrier Wi-Fi, C-RAN and DAS will reach more than $15 Billion by the end of 2017, as mobile operators remain committed to tackle the continued growth of mobile data traffic and evolving coverage requirements.

– At present, the HetNet market is facing a paradigm shift with multiple advancements ranging from small cell virtualization and neutral hosting to the adoption of unlicensed and shared spectrum.
– In conjunction with 5G and LTE Advanced network rollouts, these advancements will fuel the market to grow at a CAGR of over 18% between 2017 and 2020.

– By virtualizing small cells, mobile operators can immediately evaluate the benefits of RAN virtualization with no major impact on their larger macrocell RAN footprint. SNS research estimates that global spending on virtualized small cells will surpass $1 Billion annually by 2020.
– Unlicensed and shared spectrum small cells are also beginning to gain traction, with shipment revenues potentially reaching $240 Million by the end of 2020.

– The vendor arena is continuing to consolidate with several prominent M&A deals such as CCI’s (Communication Components, Inc.) acquisition of BLiNQ Networks and Mavenir’s merger with Ranzure Networks.

Grab Best Discount on this research Report [Single User ]| Multi User | company Users] @ https://www.supplydemandmarketresearch.com/home/contact/38149?ref=Discount&toccode=SDMRTE38149

Contact US

Supply Demand Market Research
Mr. Charles Lee
302-20 Misssisauga Valley, Missisauga,
L5A 3S1, Toronto, Canada
Ph. +1-276-477-5910
Email [email protected]

Categories
News

Small Cells Market: Study Navigating the Future Growth Outlook

The report on the Small Cells market provides a bird’s eye view of the current proceeding within the Small Cells market. Further, the report also takes into account the impact of the novel COVID-19 pandemic on the Small Cells market and offers a clear assessment of the projected market fluctuations during the forecast period. The different factors that are likely to impact the overall dynamics of the Small Cells market over the forecast period (2020-2026) including the current trends, growth opportunities, restraining factors, and more are discussed in detail in the market study.

Small Cells Market report provides in-depth review of the Expansion Drivers, Potential Challenges, Distinctive Trends, and Opportunities for market participants equip readers to totally comprehend the landscape of the Small Cells market. Major prime key manufactures enclosed within the report alongside Market Share, Stock Determinations and Figures, Contact information, Sales, Capacity, Production, Price, Cost, Revenue and Business Profiles are (Ericsson,Huawei,Nokia / Alcatel-Lucent,NEC,ZTE,Samsung,Fujitsu,Airspan,ANs,ADRF,AT&T,Ciena,Cisco Small Cells,CommScope,Corning Spidercloud,ip.access,NTSI,Optimos,Qualcomm,Signal Booster.com,Small Cell Forum,Solid Technologies,Zouk Capital / ip.access). The main objective of the Small Cells industry report is to Supply Key Insights on Competition Positioning, Current Trends, Market Potential, Growth Rates, and Alternative Relevant Statistics.

Get Free Sample PDF (including COVID19 Impact Analysis, full TOC, Tables and Figures) of Small Cells Market Report @ https://www.researchmoz.us/enquiry.php?type=S&repid1513127

Small Cells Market By Capability, Production and Share By Manufacturers, Top 3 and Top 5 Manufacturers,Small Cells Market Share of Manufacturers, Revenue and Share By Manufacturers, Producing Base Distribution, Sales Area, Product Kind, Market Competitive Scenario And Trends, Market Concentration Rate.

Later, the report gives detailed analysis about the major factors fuelling the expansion of Small Cells Market in the coming years. Some of the major factors driving the growth of Small Cells Market are-

  • Buyers
  • Suppliers
  • Investors
  • End User Industry

Small Cells Market Regional Analysis Includes:

  • Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)
  • Europe (Turkey, Germany, Russia UK, Italy, France, etc.)
  • North America (the United States, Mexico, and Canada.)
  • South America (Brazil etc.)
  • The Middle East and Africa (GCC Countries and Egypt.)

Moving forward, the researched report gives details about the strategies applied by companies as well as new entrants to expand its presence in the market.
On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, sales volume, Small Cells market share and growth rate of Small Cells for each application, including- 

  • Large Enterprises, Medium-Sized Enterprise, Small Enterprises

 On the basis of product, this report displays the sales volume, revenue (Million USD), product price, Small Cells market share and growth rate of each type, primarily split into- 

  • Cloud-Based, On-Premises

 The market study report also fragments the market on basis regions and sub regions. Furthermore, discusses the contribution of major regions that are likely to influence the market in the coming years.

Key Questions Answered in the Report:-

  1. What is the estimated growth rate of the market in the course of forecast period?
  2. Which segment holds major share in the expansion of Small Cells Market?
  3. Which region can be the most prominent contributor for market expansion in coming years?
  4. What strategies are applied by the leading companies to set stronghold in the Small Cells Market?
  5. What are the areas of major investment by the players in the market?
  6. What are the restraining factors for growth of market in specific sector?
  7. What are the latest government policies fuelling the growth of Small Cells Market?
  8. How market is being effected by macroeconomic shifts of a particular region?
  9. Which technological advancements will bring innovation in the Small Cells Market?
  10. Which end user segment will dominate the Small Cells Market?

Do You Have Any Query Or Specific Requirement? Ask to Our Industry Expert @ https://www.researchmoz.us/enquiry.php?type=E&repid1513127

Some of the Major Highlights of TOC covers:

  • Small Cells Regional Market Analysis
  • Small Cells Production by Regions
  • Global Small Cells Production by Regions
  • Global Small Cells Revenue by Regions
  • Small Cells Consumption by Regions
  • Small Cells Segment Market Analysis (by Type)
  • Global Small Cells Production by Type
  • Global Small Cells Revenue by Type
  • Small Cells Price by Type
  • Small Cells Segment Market Analysis (by Application)
  • Global Small Cells Consumption by Application
  • Global Small Cells Consumption Market Share by Application (2015-2020)
  • Small Cells Major Manufacturers Analysis
  • Small Cells Production Sites and Area Served
  • Product Introduction, Application and Specification
  • Small Cells Production, Revenue, Ex-factory Price and Gross Margin (2015-2020)
  • Main Business and Markets Served

For More Information Kindly Contact:
ResearchMoz
Mr. Rohit Bhisey,
90 State Street,
Albany NY,
United States – 12207
Tel: +1-518-621-2074
USA-Canada Toll Free: 866-997-4948
Email: [email protected]
Media Release @ https://www.researchmoz.us/pressrelease
Follow me on Blogger: https://trendingrelease.blogspot.com/

Categories
Analysis Forecast Coronavirus COVID-19 Industry Impact

Network Complexity, 5G rollouts will drive SON (Self-Organizing Network) Market spending to $5.5 Billion

The latest research report indicates that the growing complexity of mobile networks and 5G NR (New Radio) infrastructure rollouts will drive SON (Self-Organizing Network) spending to $5.5 Billion by 2022.

SON technology minimizes the lifecycle cost of running a mobile network by eliminating manual configuration of network elements at the time of deployment, right through to dynamic optimization and troubleshooting during operation. Besides improving network performance and customer experience, SON can significantly reduce the cost of mobile operator services, improving the OpEx-to-revenue ratio and deferring avoidable CapEx.

To support their LTE and HetNet deployments, early adopters of SON have already witnessed a spate of benefits – in the form of accelerated rollout times, simplified network upgrades, fewer dropped calls, improved call setup success rates, higher end-user throughput, alleviation of congestion during special events, increased subscriber satisfaction and loyalty, and operational efficiencies – such as energy and cost savings, and freeing up radio engineers from repetitive manual tasks.
Although SON was originally developed as an operational approach to streamline cellular RAN (Radio Access Network) deployment and optimization, mobile operators and vendors are increasingly focusing on integrating new capabilities such as self-protection against digital security threats, and self-learning through artificial intelligence techniques, as well as extending the scope of SON beyond the RAN to include both mobile core and transport network segments – which will be critical to address 5G requirements such as end-to-end network slicing. In addition, dedicated SON solutions for Wi-Fi and other access technologies have also emerged, to simplify wireless networking in home and enterprise environments.
Largely driven by the increasing complexity of today’s multi-RAN mobile networks – including network densification and spectrum heterogeneity, as well as 5G NR infrastructure rollouts, global investments in SON technology are expected to grow at a CAGR of approximately 11% between 2019 and 2022. By the end of 2022, SNS Telecom & IT estimates that SON will account for a market worth $5.5 Billion.
The “SON (Self-Organizing Networks) in the 5G Era: 2019 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the SON and associated mobile network optimization ecosystem, including market drivers, challenges, enabling technologies, functional areas, use cases, key trends, standardization, regulatory landscape, mobile operator case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents revenue forecasts for both SON and conventional mobile network optimization, along with individual projections for 10 SON submarkets, and 6 regions from 2019 till 2030.
Request for [email protected]https://www.supplydemandmarketresearch.com/home/contact/45574?ref=Discount&toccode=SDMRTE45574
Table of Content
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  Mentioned2  Chapter  2:  SON  &  Mobile  Network  Optimization  Ecosystem
2.1  Conventional  Mobile  Network  Optimization
2.1.1  Network  Planning
2.1.2  Measurement  Collection:  Drive  Tests,  Probes  and  End  User  Data
2.1.3  Post-Processing,  Optimization  &  Policy  Enforcement
2.2  The  SON  (Self-Organizing  Network)  Concept
2.2.1  What  is  SON?
2.2.2  The  Need  for  SON
2.3  Functional  Areas  of  SON
2.3.1  Self-Configuration
2.3.2  Self-Optimization
2.3.3  Self-Healing
2.3.4  Self-Protection
2.3.5  Self-Learning
2.4  Market  Drivers  for  SON  Adoption
2.4.1  The  5G  Era:  Continued  Mobile  Network  Infrastructure  Investments
2.4.2  Optimization  in  Multi-RAN  &  HetNet  Environments
2.4.3  OpEx  &  CapEx  Reduction:  The  Cost  Savings  Potential
2.4.4  Improving  Subscriber  Experience  and  Churn  Reduction
2.4.5  Power  Savings:  Towards  Green  Mobile  Networks
2.4.6  Alleviating  Congestion  with  Traffic  Management
2.4.7  Enabling  Large-Scale  Small  Cell  Rollouts
2.4.8  Growing  Adoption  of  Private  LTE  &  5G-Ready  Networks
2.5  Market  Barriers  for  SON  Adoption
2.5.1  Complexity  of  Implementation
2.5.2  Reorganization  &  Changes  to  Standard  Engineering  Procedures
2.5.3  Lack  of  Trust  in  Automation
2.5.4  Proprietary  SON  Algorithms
2.5.5  Coordination  Between  Distributed  and  Centralized  SON
2.5.6  Network  Security  Concerns:  New  Interfaces  and  Lack  of  Monitoring

3  Chapter  3:  SON  Technology,  Use  Cases  &  Implementation  Architectures
3.1  Where  Does  SON  Sit  Within  a  Mobile  Network?
3.1.1  RAN
3.1.2  Mobile  Core
3.1.3  Transport  (Backhaul  &  Fronthaul)
3.1.4  Device-Assisted  SON
3.2  SON  Architecture
3.2.1  C-SON  (Centralized  SON)
3.2.2  D-SON  (Distributed  SON)
3.2.3  H-SON  (Hybrid  SON)
3.3  SON  Use-Cases
3.3.1  Self-Configuration  of  Network  Elements
3.3.2  Automatic  Connectivity  Management
3.3.3  Self-Testing  of  Network  Elements
3.3.4  Self-Recovery  of  Network  Elements/Software
3.3.5  Self-Healing  of  Board  Faults
3.3.6  Automatic  Inventory
3.3.7  ANR  (Automatic  Neighbor  Relations)
3.3.8  PCI  (Physical  Cell  ID)  Configuration
3.3.9  CCO  (Coverage  &  Capacity  Optimization)
3.3.10  MRO  (Mobility  Robustness  Optimization)
3.3.11  MLB  (Mobility  Load  Balancing)
3.3.12  RACH  (Random  Access  Channel)  Optimization
3.3.13  ICIC  (Inter-Cell  Interference  Coordination)
3.3.14  eICIC  (Enhanced  ICIC)
3.3.15  Energy  Savings
3.3.16  COD/COC  (Cell  Outage  Detection  &  Compensation)
3.3.17  MDT  (Minimization  of  Drive  Tests)
3.3.18  AAS  (Adaptive  Antenna  Systems)  &  Massive  MIMO
3.3.19  Millimeter  Wave  Links  in  5G  NR  (New  Radio)  Networks
3.3.20  Self-Configuration  &  Optimization  of  Small  Cells
3.3.21  Optimization  of  DAS  (Distributed  Antenna  Systems)
3.3.22  RAN  Aware  Traffic  Shaping
3.3.23  Traffic  Steering  in  HetNets
3.3.24  Optimization  of  NFV-Based  Networking
3.3.25  Auto-Provisioning  of  Transport  Links
3.3.26  Transport  Network  Bandwidth  Optimization
3.3.27  Transport  Network  Interference  Management
3.3.28  Self-Protection
3.3.29  SON  Coordination  Management
3.3.30  Seamless  Vendor  Infrastructure  Swap
3.3.31  Dynamic  Spectrum  Management  &  Allocation
3.3.32  Network  Slice  Optimization
3.3.33  Cognitive  &  Self-Learning  Networks

4  Chapter  4:  Key  Trends  in  Next-Generation  LTE  &  5G  SON  Implementations
4.1  Big  Data  &  Advanced  Analytics
4.1.1  Maximizing  the  Benefits  of  SON  with  Big  Data
4.1.2  The  Importance  of  Predictive  &  Behavioral  Analytics
4.2  Artificial  Intelligence  &  Machine  Learning
4.2.1  Towards  Self-Learning  SON  Engines  with  Machine  Learning
4.2.2  Deep  Learning:  Enabling  “Zero-Touch”  Mobile  Networks
4.3  NFV  (Network  Functions  Virtualization)
4.3.1  Enabling  the  SON-Driven  Deployment  of  VNFs  (Virtualized  Network  Functions)
4.4  SDN  (Software  Defined  Networking)  &  Programmability
4.4.1  Using  the  SDN  Controller  as  a  Platform  for  SON  in  Transport  Networks
4.5  Cloud  Computing
4.5.1  Facilitating  C-SON  Scalability  &  Elasticity
4.6  Small  Cells,  HetNets  &  RAN  Densification
4.6.1  Plug  &  Play  Small  Cells
4.6.2  Coordinating  UDNs  (Ultra  Dense  Networks)  with  SON
4.7  C-RAN  (Centralized  RAN)  &  Cloud  RAN
4.7.1  Efficient  Resource  Utilization  in  C-RAN  Deployments  with  SON
4.8  Unlicensed  &  Shared  Spectrum  Usage
4.8.1  Dynamic  Management  of  Spectrum  with  SON
4.9  MEC  (Multi-Access  Edge  Computing)
4.9.1  Potential  Synergies  with  SON
4.10  Network  Slicing
4.10.1  Use  of  SON  Mechanisms  for  Network  Slicing  in  5G  Networks
4.11  Other  Trends  &  Complementary  Technologies
4.11.1  Alternative  Carrier/Private  LTE  &  5G-Ready  Networks
4.11.2  FWA  (Fixed  Wireless  Access)
4.11.3  DPI  (Deep  Packet  Inspection)
4.11.4  Digital  Security  for  Self-Protection
4.11.5  SON  Capabilities  for  IoT  Applications
4.11.6  User-Based  Profiling  &  Optimization  for  Vertical  5G  Applications
4.11.7  Addressing  D2D  (Device-to-Device)  Communications  &  New  Use  Cases to be continued at https://www.supplydemandmarketresearch.com/son-self-organizing-networks-in-the-g-era-opportunities-challenges-strategies-forecasts-45574

SUPPLY DEMAND MARKET RESEARCH
Mr. Charles Lee
302-20 Misssisauga Valley Blvd, Missisauga, L5A 3S1, Toronto
Ph:12764775910
[email protected]
Categories
News

Private LTE & 5G network infrastructure market an $8 Billion opportunity

The latest research report indicates that annual investments in private LTE and 5G network infrastructure – which includes RAN (Radio Access Network), mobile core and transport network equipment – will reach $8 Billion by the end of 2023.

With the standardization of features such as MCX (Mission-Critical PTT, Video & Data) services and URLCC (Ultra-Reliable Low-Latency Communications) by the 3GPP, LTE and 5G NR (New Radio) networks are rapidly gaining recognition as an all-inclusive critical communications platform for the delivery of both mission and business critical applications.

By providing authority over wireless coverage and capacity, private LTE and 5G networks ensure guaranteed and secure connectivity, while supporting a wide range of applications – ranging from PTT group communications and real-time video delivery to wireless control and automation in industrial environments. Organizations across the critical communications and industrial IoT (Internet of Things) domains – including public safety agencies, militaries, utilities, oil & gas companies, mining groups, railway & port operators, manufacturers and industrial giants – are making sizeable investments in private LTE networks.

Ask for [email protected]https://www.supplydemandmarketresearch.com/home/contact/1350876?ref=Discount&toccode=SDMREL1350876

This 1,200-plus page report is the most comprehensive publication on the private LTE and 5G network market. In addition to detailed market size projections, it profiles more than 600 ecosystem players and covers over 40 case studies of private LTE and 5G networks, as well as analysis of hundreds of other private cellular networks.

The very first private 5G networks are also beginning to be deployed to serve a diverse array of usage scenarios spanning from connected factory robotics and massive-scale sensor networking to the control of AVGs (Automated Guided Vehicles) and AR/VR (Augmented & Virtual Reality). For example, Daimler’s Mercedes-Benz Cars division is establishing a local 5G network to support automobile production processes at its “Factory 56” in Sindelfingen, while the KMA (Korea Military Academy) is installing a dedicated 5G network in its northern Seoul campus to facilitate mixed reality-based military training programs – with a primary focus on shooting and tactical simulations.

In addition, with the emergence of neutral-host small cells, multi-operator connectivity and unlicensed/shared spectrum access schemes,  the use of private LTE and 5G networks in enterprise buildings, campuses and public venues is expected to grow significantly over the coming years. The practicality of spectrum sharing schemes such as the three-tiered CBRS (Citizens Broadband Radio Service) framework and Japan’s unlicensed sXGP (Shared Extended Global Platform) has already been proven with initial rollouts in locations such as corporate campuses, golf courses, race tracks, stadiums, airports and warehouses.

A number of independent neutral-host and wholesale operators are also stepping up with pioneering business models to provide LTE and 5G connectivity services to both mobile operators and enterprises, particularly in indoor settings and locations where it is technically or economically not feasible for traditional operators to deliver substantial wireless coverage and capacity.

Expected to reach $4.7 Billion in annual spending by the end of 2020, private LTE and 5G networks are increasingly becoming the preferred approach to deliver wireless connectivity for critical communications, industrial IoT, enterprise & campus environments, and public venues.  The market will further grow at a CAGR of 19% between 2020 and 2023, eventually accounting for nearly $8 Billion by the end of 2023.

According to our estimates that as much as 30% of these investments – approximately $2.5 Billion – will be directed towards the build-out of private 5G networks which will become preferred wireless connectivity medium to support the ongoing Industry 4.0 revolution for the automation and digitization of factories, warehouses, ports and other industrial premises, in addition to serving other verticals.

The “Private LTE & 5G Network Ecosystem: 2020 – 2030 – Opportunities, Challenges, Strategies, Industry Verticals & Forecasts” report presents an in-depth assessment of the private LTE and 5G network ecosystem including market drivers, challenges, enabling technologies, vertical market opportunities, applications, key trends, standardization, spectrum availability/allocation, regulatory landscape, deployment case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents forecasts for private LTE and 5G network infrastructure investments from 2020 till 2030. The forecasts cover three submarkets, two air interface technologies, 10 vertical markets and six regions.

Request for [email protected]https://www.supplydemandmarketresearch.com/home/contact/1350876?ref=Sample-and-Brochure&toccode=SDMREL1350876

Table  of  Contents
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

2 Chapter  2:  An  Overview  of  Private  LTE/5G  Networks
2.1 Private  Wireless  Networks
2.1.1 Addressing  the  Needs  of  the  Critical  Communications  Industry
2.1.2 The  Limitations  of  LMR  (Land  Mobile  Radio)  Networks
2.1.3 Growing  Use  of  Commercial  Mobile  Broadband  Technologies
2.1.4 Connectivity  Requirements  for  the  Industrial  IoT  (Internet  of  Things)
2.1.5 Localized  Mobile  Networks  for  Buildings,  Campuses  &  Public  Venues
2.2 LTE  &  5G  for  Private  Networking
2.2.1 Why  LTE  &  5G?
2.2.2 Performance  Metrics
2.2.3 Coexistence,  Interoperability  and  Spectrum  Flexibility
2.2.4 A  Thriving  Ecosystem  of  Chipsets,  Devices  &  Network  Equipment
2.2.5 Economic  Feasibility  of  Operation
2.2.6 Moving  Towards  LTE-Advanced  &  LTE-Advanced  Pro
2.2.7 Private  LTE  Support  in  LTE-Advanced  Pro
2.2.8 5G  NR  (New  Radio)  Capabilities  &  Usage  Scenarios
2.2.8.1 eMBB  (Enhanced  Mobile  Broadband)
2.2.8.2 URLCC  (Ultra-Reliable  Low-Latency  Communications)
2.2.8.3 mMTC  (Massive  Machine-Type  Communications)
2.3 Private  LTE  &  5G  Network  Operational  Models
2.3.1 Independent  Private  Network
2.3.2 Managed  Private  Network
2.3.3 Shared  Core  Private  Network
2.3.4 Hybrid  Commercial-Private  Network
2.3.5 Private  MVNO:  Commercial  Network  with  a  Private  Mobile  Core
2.3.6 Other  Approaches
2.4 Key  Applications  of  Private  LTE  &  5G  Networks
2.4.1 Secure  &  Seamless  Mobile  Broadband  Access
2.4.2 Bandwidth-Intensive  &  Latency-Sensitive  Field  Applications
2.4.3 Bulk  Multimedia  &  Data  Transfers
2.4.4 In-Building  Coverage  &  Capacity
2.4.5 Seamless  Roaming  &  Mobile  VPN  Access
2.4.6 Mission-Critical  HD  Voice  &  Group  Communications
2.4.7 Video  &  High-Resolution  Imagery
2.4.8 Massive-Scale  Video  Surveillance  &  Analytics
2.4.9 Messaging  &  Presence  Services
2.4.10 Location  Services  &  Mapping
2.4.11 Command  &  Control  Systems
2.4.12 Smart  Grid  Operations
2.4.13 Environmental  Monitoring
2.4.14 Industrial  Automation
2.4.15 Connected  Robotics
2.4.16 Machine  Vision
2.4.17 AR/VR  (Augmented  &  Virtual  Reality)
2.4.18 Telehealth  &  Remote  Surgery
2.4.19 High-Speed  Railway  Connectivity
2.4.20 PIS  (Passenger  Information  Systems)
2.4.21 Delay-Sensitive  Control  of  Railway  Infrastructure
2.4.22 In-Flight  Connectivity  for  Passengers  &  Airline  Operators
2.4.23 Maritime  Connectivity  for  Vessels  &  Offshore  Facilities
2.4.24 Telemetry,  Control  &  Remote  Diagnostics
2.4.25 Unmanned  Ground,  Marine  &  Aerial  Vehicles
2.5 Market  Drivers
2.5.1 Recognition  of  LTE  &  5G  as  the  De-Facto  Platform  for  Wireless  Connectivity
2.5.2 Spectral  Efficiency  &  Bandwidth  Flexibility
2.5.3 Regional  Interoperability  &  Cost  Efficiency
2.5.4 Endorsement  from  the  Critical  Communications  Industry
2.5.5 Emergence  of  Unlicensed  &  Shared  Spectrum  Technologies
2.5.6 Growing  Demand  for  High-Speed  &  Low-Latency  Data  Applications
2.5.7 Limited  Coverage  in  Indoor,  Industrial  &  Remote  Environments
2.5.8 Favorable  Licensing  Schemes  for  Localized  LTE  &  5G  Networks
2.5.9 Control  over  QoS  (Quality-of-Service)
2.5.10 Privacy  &  Security
2.6 Market  Barriers
2.6.1 Lack  of  Licensed  Spectrum  for  Wide-Area  Coverage
2.6.2 Funding  Challenges  for  Large-Scale  Networks
2.6.3 Technical  Complexities  of  Implementation  &  Operation
2.6.4 Smaller  Coverage  Footprint  Than  Legacy  LMR  Systems
2.6.5 Competition  from  IEEE  802.16s,  AeroMACS,  WiGRID  &  Other  Technologies
2.6.6 Delayed  Standardization

3 Chapter  3:  System  Architecture  &  Technologies  for  Private  LTE/5G  Networks
3.1 Architectural  Components  of  Private  LTE  &  5G  Networks
3.1.1 UE  (User  Equipment)
3.1.2 E-UTRAN  –  LTE  RAN  (Radio  Access  Network)
3.1.2.1 eNBs  –  LTE  Base  Stations
3.1.3 NG-RAN  –  5G  NR  (New  Radio)  Access  Network
3.1.3.1 gNBs  –  5G  NR  Base  Stations
3.1.3.2 en-gNBs  –  Secondary  Node  5G  NR  Base  Stations
3.1.3.3 ng-eNBs  –  Next  Generation  LTE  Base  Stations
3.1.4 Transport  Network
3.1.4.1 Backhaul
3.1.4.2 Fronthaul  &  Midhaul
3.1.5 EPC  (Evolved  Packet  Core)  –  The  LTE  Mobile  Core
3.1.5.1 SGW  (Serving  Gateway)
3.1.5.2 PGW  (Packet  Data  Network  Gateway)
3.1.5.3 MME  (Mobility  Management  Entity)
3.1.5.4 HSS  (Home  Subscriber  Server)
3.1.5.5 PCRF  (Policy  Charging  and  Rules  Function)
3.1.6 5GC  (5G  Core)/NGC  (Next-Generation  Core)
3.1.6.1 AMF  (Access  &  Mobility  Management  Function)
3.1.6.2 UPF  (User  Plane  Function)
3.1.6.3 SMF  (Session  Management  Function)
3.1.6.4 PCF  (Policy  Control  Function)
3.1.6.5 NEF  (Network  Exposure  Function)
3.1.6.6 NRF  (Network  Repository  Function)
3.1.6.7 UDM  (Unified  Data  Management)
3.1.6.8 UDR  (Unified  Data  Repository)
3.1.6.9 AUSF  (Authentication  Server  Function)
3.1.6.10 AF  (Application  Function)
3.1.6.11 NSSF  (Network  Slice  Selection  Function)
3.1.6.12 NWDAF  (Network  Data  Analytics  Function)
3.1.6.13 Other  Elements
3.1.7 IMS  (IP-Multimedia  Subsystem),  Application  &  Service  Elements
3.1.7.1 IMS  Core  &  VoLTE/VoNR
3.1.7.2 eMBMS/FeMBMS  –  Broadcasting/Multicasting  over  LTE/5G  Networks
3.1.7.3 ProSe  (Proximity  Services)
3.1.7.4 Group  Communication  &  Mission-Critical  Services
3.1.8 Gateways  for  LTE/5G-External  Network  Interworking
3.2 Key  Enabling  Technologies  &  Concepts
3.2.1 Critical  Communications
3.2.1.1 MCPTT  (Mission-Critical  PTT)  Voice  &  Group  Communications
3.2.1.2 Mission-Critical  Video  &  Data
3.2.1.3 ProSe  (Proximity  Services)  for  D2D  Connectivity  &  Communications
3.2.1.4 IOPS  (Isolated  E-UTRAN  Operation  for  Public  Safety)
3.2.1.5 Deployable  LTE  &  5G  Systems
3.2.1.6 UE  Enhancements
3.2.2 Industrial  IoT
3.2.2.1 eMTC,  NB-IoT  &  mMTC:  Wide  Area  &  High  Density  IoT  Applications
3.2.2.2 Techniques  for  URLLC
3.2.2.3 TSN  (Time  Sensitive  Networking)
3.2.3 QPP  (QoS,  Priority  &  Preemption)
3.2.4 High-Precision  Positioning
3.2.5 End-to-End  Security
3.2.6 Quantum  Cryptography  Technologies

3.2.7 Licensed  Spectrum  Sharing  &  Aggregation
3.2.8 Unlicensed  &  Shared  Spectrum  Usage
3.2.8.1 CBRS  (Citizens  Broadband  Radio  Service):  Three-Tiered  Sharing
3.2.8.2 LSA  (Licensed  Shared  Access):  Two-Tiered  Sharing
3.2.8.3 sXGP  (Shared  Extended  Global  Platform):  Non-Tiered  Unlicensed  Access
3.2.8.4 LTE-U/LAA  (License  Assisted  Access)  &  eLAA  (Enhanced  LAA):  Licensed  &  Unlicensed  Spectrum  Aggregation
3.2.8.5 MulteFire
3.2.8.6 5G  NR-U
3.2.9 SDR  (Software-Defined  Radio)
3.2.10 Cognitive  Radio  &  Spectrum  Sensing
3.2.11 Wireless  Connection  Bonding
3.2.12 Network  Sharing  &  Slicing
3.2.12.1 MOCN  (Multi-Operator  Core  Network)
3.2.12.2 DECOR  (Dedicated  Core)
3.2.12.3 Network  Slicing
3.2.13 Software-Centric  Networking
3.2.13.1 NFV  (Network  Functions  Virtualization)
3.2.13.2 SDN  (Software  Defined  Networking)
3.2.14 Small  Cells
3.2.15 C-RAN  (Centralized  RAN)
3.2.16 SON  (Self-Organizing  Networks)
3.2.17 MEC  (Multi-Access  Edge  Computing)
3.2.18 Artificial  Intelligence  &  Machine  Learning
3.2.19 Big  Data  &  Advanced  Analytics

to be continued @https://www.supplydemandmarketresearch.com/home/toc_publisher/1350876?code=SDMREL1350876

Contact US

SUPPLY DEMAND MARKET RESEARCH
Mr. Charles Lee
302-20 Misssisauga Valley Blvd, Missisauga, L5A 3S1, Toronto
Ph:12764775910
[email protected]

Categories
Analysis Forecast Coronavirus COVID-19 Industry Impact Market Price Analysis Market Reports Market Size Market Study News

2020 Growth: Small Cells Market 2020 Top Manufactures, Growth Opportunities and Investment Feasibility 2025

Global Small Cells (COVID-19) Market Report 2020 by Key Players, Types, Applications, Countries, Market Size, Forecast to 2026 (Based on 2020 COVID-19 Worldwide Spread)

The Small Cells market report provides a detailed analysis of global market size, regional and country-level market size, segmentation market growth, market share, competitive Landscape, sales analysis, the impact of domestic and global market players, value chain optimization, trade regulations, recent developments, opportunities analysis, strategic market growth analysis, product launches, area marketplace expanding, and technological innovations.

>>> Download Sample PDF (including COVID19 Impact Analysis, full TOC, Tables and Figures) of Tablet PC (COVID-19) Market: https://industrystatsreport.com/Request/Sample?ResearchPostId=580&RequestType=Sample

The detailed market intelligence report on the Global Small Cells Market applies the most effective of each primary and secondary analysis to weighs upon the competitive landscape and also the outstanding market players expected to dominate Global Small Cells Market place for the forecast 2019“ 2025.

Scope Of The Report:

Report evaluates the growth rate and the Market value based on Market dynamics, growth inducing factors. The complete knowledge is based on latest industry news, opportunities and trends. The report contains a comprehensive Market analysis and vendor landscape in addition to a SWOT analysis of the key vendors.

Geographically, this report split global into several key Regions, revenue (Million USD) The geography (North America, Europe, Asia-Pacific, Latin America and Middle East & Africa) focusing on key countries in each region. It also covers market drivers, restraints, opportunities, challenges, and key issues in Global Small Cells Market.

Key Benefits for Small Cells Market Reports

Global market report covers in-depth historical and forecast analysis.

Global market research report provides detail information about Market Introduction, Market Summary, Global market Revenue (Revenue USD), Market Drivers, Market Restraints, Market Opportunities, Competitive Analysis, Regional and Country Level.

Global market report helps to identify opportunities in market place.

Global market report covers extensive analysis of emerging trends and competitive landscape.

Small Cells Market Segmentation:

By Technology

FCC Position on Small Cells

Small Cells Local Regulations

Macro Network Layer

By Region

North America

o U.S.

o Canada

o Mexico

Europe

o UK

o France

o Germany

o Russia

o Rest of Europe

Asia-Pacific

o China

o South Korea

o India

o Japan

o Rest of Asia-Pacific

LAMEA

o Latin America

o Middle East

o Africa

Small Cells Market Key Players:

ADRF

Airspan

Airvana

ANs

AT&T

Ciena

Cisco

CommScope

Corning

Ericsson

Huawei

ip.access

NBN

Nokia

NTSI

Optimos

Qualcomm

Samsung

Signal Booster.com

Small Cell Forum

Solid Technologies

Spidercloud

Zouk Capital

ZTE

Others

This comprehensive report will provide:

Enhance your strategic decision making

Assist with your research, presentations and business plans

Show which emerging market opportunities to focus on

Increase your industry knowledge

Keep you up-to-date with crucial market developments

Allow you to develop informed growth strategies

Build your technical insight

Illustrate trends to exploit

Strengthen your analysis of competitors

Provide risk analysis, helping you avoid the pitfalls other companies could make

Ultimately, help you to maximize profitability for your company.

Our Market Research Solution Provides You Answer to Below Mentioned Question:

Which are the driving factors responsible for the growth of market?

Which are the roadblock factors of this market?

What are the new opportunities, by which market will grow in coming years?

What are the trends of this market?

Which are main factors responsible for new product launch?

How big is the global & regional market in terms of revenue, sales and production?

How far will the market grow in forecast period in terms of revenue, sales and production?

Which region is dominating the global market and what are the market shares of each region in the overall market in 2017?

How will each segment grow over the forecast period and how much revenue will these segment account for in 2025?

Which region has more opportunities?

Request Customization of the Report: https://industrystatsreport.com/Request/Sample?ResearchPostId=580&RequestType=Customization

What are the key takeaways of this report?

  • An exhaustive pricing analysis has been tackled with respect to the product terrain, application spectrum, and regional landscape
  • A comprehensive summary about the key market players and prominent companies functioning in the Small Cells market to understand the competitive prospect of the global market
  • Vital information entailing the regulatory scenario the defines the market, alongside the inflow of investments by majority stakeholders in the global market
  • An in-depth evaluation of varied trends that are fueling the overall market growth and their influence on the projection and dynamics of the global market
  • A descriptive guide that identifies the essential aspects, in tandem with numerous growth opportunities available in the global market
  • Well-detailed documentation of a great number of aspects persisting in the global market which will favor important developments

Read More: https://industrystatsreport.com/ICT-and-Media/Small-Cells-Market-Share/Summary

About Us:

We publish market research reports & business insights produced by highly qualified and experienced industry analysts. Our research reports are available in a wide range of industry verticals including aviation, food & beverage, healthcare, ICT, Construction, Chemicals and lot more. Brand Essence Market Research report will be best fit for senior executives, business development managers, marketing managers, consultants, CEOs, CIOs, COOs, and Directors, governments, agencies, organizations and Ph.D. Students.

Top Trending Reports:

https://www.marketprwire.com/vascular-closure-devices-vcds-market-2020-statistics-size-trends-growth-and-top-companies-detailed-analysis-by-forecast-to-2025/

https://www.marketwatch.com/press-release/europe-electric-bus-market-size-share-growth-companies-industry-report-2020-2025-cagr-of-2564-2020-07-27?tesla=y

https://marketstatsreport.com/rugged-handheld-device-market-2020-industry-analysis-market-size-business-strategies-geography

https://sites.google.com/view/themarkets/healthcare/at-cagr-5-7-medical-imaging-equipment-market-boost-up-to-2025

https://www.bccourier.com/global-automotive-electronics-market-expected-to-reach-usd-458-97-billion-by-2025-with-the-cagr-of-9-5-over-the-forecast-period/

Categories
Analysis Forecast Coronavirus COVID-19 Industry Impact Energy Entertainment Market Price Analysis Market Reports Market Size Market Study NASA News Satellite Space

Projection 2020: Small Cells Market Strategies and Insight Driven Transformation 2020-2025

The ‘Small Cells market’ study collated by researchers at Brand Essence Market Research is a detailed sketch of the business sphere in terms of current and future trends driving the profit matrix. The report also indicates a pointwise outline of market share, market size, industry partakers, and regional landscape along with statistics, diagrams, & charts elucidating various noteworthy parameters of the industry landscape.

Small Cells Market Size Covers Global Industry Analysis, Size, Share, CAGR, Trends, Forecast And Business Opportunity.

Download Premium Sample of the Report: https://brandessenceresearch.biz/Request/Sample?ResearchPostId=72701&RequestType=Sample

The detailed market intelligence report on the Global Small Cells Market applies the most effective of each primary and secondary analysis to weighs upon the competitive landscape and also the outstanding market players expected to dominate Global Small Cells Market place for the forecast 2019“ 2025.
Scope Of The Report:
Report evaluates the growth rate and the Market value based on Market dynamics, growth inducing factors. The complete knowledge is based on latest industry news, opportunities and trends. The report contains a comprehensive Market analysis and vendor landscape in addition to a SWOT analysis of the key vendors.
Geographically, this report split global into several key Regions, revenue (Million USD) The geography (North America, Europe, Asia-Pacific, Latin America and Middle East & Africa) focusing on key countries in each region. It also covers market drivers, restraints, opportunities, challenges, and key issues in Global Small Cells Market.
Key Benefits for Small Cells Market Reports
¢ Global market report covers in-depth historical and forecast analysis.
¢ Global market research report provides detail information about Market Introduction, Market Summary, Global market Revenue (Revenue USD), Market Drivers, Market Restraints, Market Opportunities, Competitive Analysis, Regional and Country Level.
¢ Global market report helps to identify opportunities in market place.
¢ Global market report covers extensive analysis of emerging trends and competitive landscape.
Small Cells Market Segmentation:
By Technology
¢ FCC Position on Small Cells
¢ Small Cells Local Regulations
¢ Macro Network Layer
By Region
¢ North America
o U.S.
o Canada
o Mexico
¢ Europe
o UK
o France
o Germany
o Russia
o Rest of Europe
¢ Asia-Pacific
o China
o South Korea
o India
o Japan
o Rest of Asia-Pacific
¢ LAMEA
o Latin America
o Middle East
o Africa
Small Cells Market Key Players:
¢ ADRF
¢ Airspan
¢ Airvana
¢ ANs
¢ AT&T
¢ Ciena
¢ Cisco
¢ CommScope
¢ Corning
¢ Ericsson
¢ Huawei
¢ ip.access
¢ NBN
¢ Nokia
¢ NTSI
¢ Optimos
¢ Qualcomm
¢ Samsung
¢ Signal Booster.com
¢ Small Cell Forum
¢ Solid Technologies
¢ Spidercloud
¢ Zouk Capital
¢ ZTE
¢ Others
This comprehensive report will provide:
¢ Enhance your strategic decision making
¢ Assist with your research, presentations and business plans
¢ Show which emerging market opportunities to focus on
¢ Increase your industry knowledge
¢ Keep you up-to-date with crucial market developments
¢ Allow you to develop informed growth strategies
¢ Build your technical insight
¢ Illustrate trends to exploit
¢ Strengthen your analysis of competitors
¢ Provide risk analysis, helping you avoid the pitfalls other companies could make
¢ Ultimately, help you to maximize profitability for your company.
Our Market Research Solution Provides You Answer to Below Mentioned Question:
¢ Which are the driving factors responsible for the growth of market?
¢ Which are the roadblock factors of this market?
¢ What are the new opportunities, by which market will grow in coming years?
¢ What are the trends of this market?
¢ Which are main factors responsible for new product launch?
¢ How big is the global & regional market in terms of revenue, sales and production?
¢ How far will the market grow in forecast period in terms of revenue, sales and production?
¢ Which region is dominating the global market and what are the market shares of each region in the overall market in 2017?
¢ How will each segment grow over the forecast period and how much revenue will these segment account for in 2025?
¢ Which region has more opportunities?

Key Reasons to Purchase:

To gain insightful analyses of the market and a comprehensive understanding of the impact of COVID-19 is likely to have on the Small Cells Market during the forecast period between 2020 and 2026, and its commercial landscape
To learn about the market strategies that are being adopted by your competitors and other leading companies
To understand the future outlook and prospects of the Small Cells Market post COVID-19
To keep you abreast with the strategies used by other players in the
To understand the changes in rules and regulations in various countries during COVID-19 and its possible effects on the market in the future.

Request Customization of the Report: https://brandessenceresearch.biz/Request/Sample?ResearchPostId=72701&RequestType=Methodology

Below is the TOC of the Report:

Introduction
Small Cells Market Trends
Regional Impact Analysis
North America (the US, Mexico, and Canada)
Europe (Germany, the UK, France, and Rest of Europe)
Asia Pacific (China, Japan, India, and Rest of Asia Pacific)
Latin America (Brazil and Rest of Latin America)
Middle East & Africa (GCC Countries and Rest of Middle East & Africa)
Before COVID-19 Analysis
Current Impact Analysis
Future Impact Analysis
Economic Impact Analysis
Government Policies and Steps Taken
Investment Scenario and Impact

About Us:

We publish market research reports & business insights produced by highly qualified and experienced industry analysts. Our research reports are available in a wide range of industry verticals including aviation, food & beverage, healthcare, ICT, Construction, Chemicals and lot more. Brand Essence Market Research report will be best fit for senior executives, business development managers, marketing managers, consultants, CEOs, CIOs, COOs, and Directors, governments, agencies, organizations and Ph.D. Students.

 

Top Trending Reports:

Top Trending Reports:

https://businessstatsnews.com/basal-cell-nevus-syndrome-drug-market-global-industry-analysis-and-opportunity-assessment

https://businessstatsnews.com/sea-water-nasal-spray-market-share-size-industry-players-revenue-and-product

https://www.marketwatch.com/press-release/us-artificial-intelligence-in-manufacturing-market-top-companies-microsoft-ibm-intel-siemens-aws-2020-07-24?tesla=y

https://www.marketwatch.com/press-release/edible-insects-market-analysis-market-size-business-strategies-geography-trends-and-forecast-2025-2020-07-24?tesla=y

https://www.marketwatch.com/press-release/us-scar-treatment-market-size-share-trends-segmentation-growth-and-forecast-to-2025-2020-07-26?tesla=y

Categories
Analysis Forecast Coronavirus COVID-19 Industry Impact Energy Entertainment Market Price Analysis Market Reports Market Size Market Study NASA News Satellite Space

Europe Outlook on the Worldwide Small Cells Industry to 2025

Small Cells Market Research Report Cover Covid-19 Outbreak:

Brand Essence Market Research has developed a concise study on the Small Cells market  to depict valuable insights related to significant market trends driving the industry. The report features analysis based on key opportunities and challenges confronted by market leaders while highlighting their competitive setting and corporate strategies for the estimated timeline.

Download Premium Sample of the Report: https://brandessenceresearch.biz/Request/Sample?ResearchPostId=72701&RequestType=Sample

The Major Players Covered in this Report: ADRF,Airspan,Airvana,ANs,AT&T,Ciena,Cisco,CommScope,Corning,Ericsson,Huawei,ip.access,NBN,Nokia,NTSI,Optimos,Qualcomm,Samsung,Signal Booster.com,Small Cell Forum,Solid Technologies,Spidercloud,Zouk Capital,ZTE & More.

Application: By Technology,FCC Position on Small Cells ,Small Cells Local Regulations ,Macro Network Layer

Results of the recent scientific undertakings towards the development of new Small Cells products have been studied. Nevertheless, the factors affecting the leading industry players to adopt synthetic sourcing of the market products have also been studied in this statistical surveying report. The conclusions provided in this report are of great value for the leading industry players. Every organization partaking in the global production of the Small Cells market products have been mentioned in this report, in order to study the insights on cost-effective manufacturing methods, competitive landscape, and new avenues for applications.

Global Small Cells Market: Regional Segmentation
For further clarification, analysts have also segmented the market on the basis of geography. This type of segmentation allows the readers to understand the volatile political scenario in varying geographies and their impact on the global Small Cells market. On the basis of geography, the global market for Small Cells has been segmented into:

North America (United States, Canada, and Mexico)
Europe (Germany, France, UK, Russia, and Italy)
Asia-Pacific (China, Japan, Korea, India, and Southeast Asia)
South America (Brazil, Argentina, Colombia, etc.)
Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, and South Africa)

Request Cutomization @ https://brandessenceresearch.biz/Request/Sample?ResearchPostId=72701&RequestType=Methodology

Report Methodology:

The information enclosed in this report is based upon both primary and secondary research methodologies.

Primary research methodology includes the interaction with service providers, suppliers, and industry professionals. Secondary research methodology includes a meticulous search of pertinent publications like company annual reports, financial reports, and exclusive databases.

Table of Content:

Market Overview: The report begins with this section where product overview and highlights of product and application segments of the Global Small Cells Market are provided. Highlights of the segmentation study include price, revenue, sales, sales growth rate, and market share by product.

Competition by Company: Here, the competition in the Worldwide Global Small Cells Market is analyzed, By price, revenue, sales, and market share by company, market rate, competitive situations Landscape, and latest trends, merger, expansion, acquisition, and market shares of top companies.

Company Profiles and Sales Data: As the name suggests, this section gives the sales data of key players of the Global Small Cells Market as well as some useful information on their business. It talks about the gross margin, price, revenue, products, and their specifications, type, applications, competitors, manufacturing base, and the main business of key players operating in the Global Small Cells Market.

Market Status and Outlook by Region: In this section, the report discusses about gross margin, sales, revenue, production, market share, CAGR, and market size by region. Here, the Global Small Cells Market is deeply analyzed on the basis of regions and countries such as North America, Europe, China, India, Japan, and the MEA.

Application or End User: This section of the research study shows how different end-user/application segments contribute to the Global Small Cells Market.

Market Forecast: Here, the report offers a complete forecast of the Global Small Cells Market by product, application, and region. It also offers global sales and revenue forecast for all years of the forecast period.

Research Findings and Conclusion: This is one of the last sections of the report where the findings of the analysts and the conclusion of the research study are provided.

About Us:

We publish market research reports & business insights produced by highly qualified and experienced industry analysts. Our research reports are available in a wide range of industry verticals including aviation, food & beverage, healthcare, ICT, Construction, Chemicals and lot more. Brand Essence Market Research report will be best fit for senior executives, business development managers, marketing managers, consultants, CEOs, CIOs, COOs, and Directors, governments, agencies, organizations and Ph.D. Students.

Top Trending Reports:

https://industrywatchnews.com/wound-care-positioner-devices-market-2020-global-top-players-share-trend-technology

https://industrywatchnews.com/covid-19-impact-on-disposable-syringes-market-2020-global-companies-analysis-and

https://www.marketwatch.com/press-release/chromatography-resin-market-2020-market-2020-by-key-features-advancements-companies-profile-industry-verticals-development-rapid-growth-and-business-strategy-2025-2020-06-09

https://www.marketwatch.com/press-release/at-cagr-of-33-bio-plasticizers-market-2020-size-sharetypes-applications-forecast-and-covid-19-impact-analysis-2025-2020-06-09