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In-flight Connectivity Market 2020 : Overview, Industry by Type, by Manufacturers, Regions, Industry Analysis & Forecast by 2026| Gogo Inc., Inmarsat Plc., Global Eagle Entertainment, and Panasonic Corporation

“Latest Research Report: In-flight Connectivity Market 2020”

RnM newly added a research report on the In-flight Connectivity market, which represents a study for the period from 2020 to 2026. The research study provides a near look at the market scenario and dynamics impacting its growth. This report highlights the crucial developments along with other events happening in the market which are marking on the growth and opening doors for future growth in the coming years. Additionally, the report is built on the basis of the macro- and micro-economic factors and historical data that can influence the growth.

Key Players

The global In-flight Connectivity market has been comprehensively analyzed and the different companies that occupy a large percentage of the market share in the regions mentioned have been listed out in the report. Industry trends that are popular and are causing a resurgence in the market growth are identified. A strategic profile of the companies is also carried out to identify the various subsidiaries that they own in the different regions and who are responsible for daily operations in these regions.

The key players covered in this study Gogo Inc., Inmarsat Plc., Global Eagle Entertainment, and Panasonic Corporation

“The final report will add the analysis of the Impact of Covid-19 in this report In-flight Connectivity industry.”

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Research objectives

To study and analyze the global In-flight Connectivity consumption (value & volume) by key regions/countries, product type and application, history data from 2015 to 2019, and forecast to 2026.

To understand the structure of In-flight Connectivity market by identifying its various sub segments.

Focuses on the key global In-flight Connectivity manufacturers, to define, describe and analyze the sales volume, value, market share, market competition landscape, SWOT analysis and development plans in next few years.

To analyze the In-flight Connectivity with respect to individual growth trends, future prospects, and their contribution to the total market.

To share detailed information about the key factors influencing the growth of the market (growth potential, opportunities, drivers, industry-specific challenges and risks).

To project the consumption of In-flight Connectivity sub markets, with respect to key regions (along with their respective key countries).

To analyze competitive developments such as expansions, agreements, new product launches, and acquisitions in the market.

To strategically profile the key players and comprehensively analyze their growth strategies.

Market segmentation

In-flight Connectivity market is split by Type and by Application. For the period 2015-2026, the growth among segments provide accurate calculations and forecasts for sales by Type and by Application in terms of volume and value. This analysis can help you expand your business by targeting qualified niche markets.

Research Methodology:

Our market forecasting is based on a market model derived from market connectivity, dynamics, and identified influential factors around which assumptions about the market are made. These assumptions are enlightened by fact-bases, put by primary and secondary research instruments, regressive analysis and an extensive connect with industry people. Market forecasting derived from in-depth understanding attained from future market spending patterns provides quantified insight to support your decision-making process. The interview is recorded, and the information gathered in put on the drawing board with the information collected through secondary research.

The report provides insights on the following pointers:

Market Penetration: Provides comprehensive information on In-flight Connectivity offered by the key players in the Global In-flight Connectivity Market

Product Development & Innovation: Provides intelligent insights on future technologies, R&D activities, and new product developments in the Global In-flight Connectivity Market

Market Development: Provides in-depth information about lucrative emerging markets and analyzes the markets for the Global In-flight Connectivity Market

Market Diversification: Provides detailed information about new products launches, untapped geographies, recent developments, and investments in the Global In-flight Connectivity Market

Competitive Assessment & Intelligence: Provides an exhaustive assessment of market shares, strategies, products, and manufacturing capabilities of the leading players in the Global In-flight Connectivity Market

The report answers key questions such as:

What will the market size be in 2026 and what will the growth rate be?

What are the key market trends?

What is driving this market?

What are the challenges to market growth?

Who are the key vendors in this market space?

What are the market opportunities and threats faced by the key vendors?

What are the strengths and weaknesses of the key vendors?

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Table of Contents: In-flight Connectivity Market

Chapter 1: Overview of In-flight Connectivity Market

Chapter 2: Global Market Status and Forecast by Regions

Chapter 3: Global Market Status and Forecast by Types

Chapter 4: Global Market Status and Forecast by Downstream Industry

Chapter 5: Market Driving Factor Analysis

Chapter 6: Market Competition Status by Major Manufacturers

Chapter 7: Major Manufacturers Introduction and Market Data

Chapter 8: Upstream and Downstream Market Analysis

Chapter 9: Cost and Gross Margin Analysis

Chapter 10: Marketing Status Analysis

Chapter 11: Market Report Conclusion

Chapter 12: Research Methodology and Reference

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Trending News: In-flight Connectivity Market Overview and Forecast Report 2020-2026 – Top players: Gogo Inc., Inmarsat Plc., Global Eagle Entertainment, Panasonic Corporation,, etc. | InForGrowth

In-flight Connectivity Market research report provides various levels of analysis such as industry analysis (industry trends), market share analysis of top players, and company profiles, which together provide an overall view on the competitive landscape; emerging and high-growth segments of the In-flight Connectivity market; high-growth regions; and market drivers, restraints, challenges, and opportunities.

The In-flight Connectivity market report elaborates insights on the Market Diversification (Exhaustive information about new products, untapped regions, and recent developments), Competitive Assessment (In-depth assessment of market shares, strategies, products, and manufacturing capabilities of leading players in the In-flight Connectivity market).

“”Premium Insights on In-flight Connectivity Market 2020 with Market Players Positioning”” 
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Market segmentation based on the Key Players, Types & Applications.

In-flight Connectivity Market on the basis of Product Type: Hardware, Service

In-flight Connectivity Market on the basis of Applications: Content Service, Connectivity Service

Top Key Players in In-flight Connectivity market: Gogo Inc., Inmarsat Plc., Global Eagle Entertainment, Panasonic Corporation

In-flight

This report brings together multiple data sources to provide a comprehensive overview of In-flight Connectivity.

It includes analysis on the following –

  • Market Environment: Includes sector size, market size, and growth analysis by segmentation.
  • High-potential Countries’ Analysis: Indicates changing share of value consumption in the various segments & sub-segments across high-potential countries globally. The report also provides analysis of market assessment, economic development, socio-demographic, governance indicators, and technological infrastructure.
  • Country Deep Dive: Provides the overview, demographic analysis, and key trends across high potential countries.
  • Competitive Environment: Provides an overview of leading key players, besides analyzing the growth of private labels in the region.
  • Distribution Analysis: Provides analysis of the leading distribution channels.
  • Challenges and Future Outlook: Provides the challenges and future outlook pertaining to In-flight Connectivity

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Industrial Analysis of In-flight Connectivity Market:

In-flight

Reasons to Buy In-flight Connectivity market Report:

  • Manufacturing and retailers seek the latest information on how the market is evolving to formulate their sales and marketing strategies. There is also a demand for authentic market data with a high level of detail. This In-flight Connectivity market report has been created to provide its readers with up-to-date information and analysis to uncover emerging opportunities for growth within the sector in the region.
  • The In-flight Connectivity market report provides a detailed analysis of the countries in the region, covering the key challenges, competitive landscape, and demographic analysis, that can help companies gain insight into the country-specific nuances.
  • The analysts have also placed a significant emphasis on the key trends that drive consumer choice and the future opportunities that can be explored in the region than can help companies in revenue expansion.
  • To gain competitive intelligence about leading companies in the sector in the region with information about their market share and growth rates

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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.

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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.

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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

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