CAGR of the On-board Connectivity market is expected to be 14.3% during the forecast period and the market size is expected to reach nearly US$ 63.68 billion by 2029. The report includes the analysis of impact of COVID-19 lock-down on the revenue of market leaders, followers, and disrupters. Since lock down was implemented differently in different regions and countries, impact of same is also different by regions and segments. The report has covered the current short term and long term impact on the market, same will help decision makers to prepare the outline for short term and long term strategies for companies by region.To know about the Research Methodology:-Request Free Sample ReportOn-board Connectivity Market Dynamics:
Growing usage of portable electronic devices, liberalization in the field of transportation, and increasing disposable income are factors expected to drive the growth of the global on-board connectivity market. Increasing demand for deployment of on-board Wi-Fi equipment due to the proliferation of electronic device in the field of aviation, marine, and train transportation is another factor expected to drive the growth of the target market. People across the globe are relying on airways and railways as one of the safest modes of transportation. The growing number of air passengers across the world is acting as a major driver for rising investment in on-board connectivity. Furthermore, the global on-board connectivity market is expected to grow significantly during the forecast period, attributed to rising IT spending in the aviation industry. Companies are investing enormous amounts to install connectivity solutions. For instance, Inmarsat has invested billions in wholly-owned and operated global satellite networks and has a strategy for further investment. The investment in networking equipment is growing due to the increasing demand for high speed and network connectivity by passengers. Also, government initiatives to enhance customer services are providing huge opportunities to vendors as most airlines, railways, and marines are emphasizing on the installation of connectivity services. At the same time, high cost associated with the deployment of equipment enabling on-board connectivity is expected to be limiting the large-scale adoption of on-board connectivity. As, installing tools on every flight can be expensive for airlines. In terms of application, the entertainment segment accounted for nearly two-thirds of the total market share in 2021 and is expected to continue its dominance by 2029. This is attributed to a significant rise in demand for entertainment and social media connectivity in aviation, maritime, railway, and road transit vehicles. Furthermore, the communication segment would register the highest CAGR of 14.0% from 2021 to 2029, due to the ability to make phone calls through the satellite-based networks in the airplanes and ships. From a geographical point of view, North America is expected to hold a major share in the on-board connectivity market during the forecast period. Growth in this region is due to strong adoption and penetration of on-board connectivity platform, services, as well as technological advancements across the region. Additionally, presence of major key players in countries of North America as well as increasing IT and huge investment by leading vendors to enhance travelling experience are some factors expected to drive the growth of the North America market. The objective of the report is to present a comprehensive assessment of the market and contains thoughtful insights, facts, historical data, industry-validated market data and projections with a suitable set of assumptions and methodology. The report also helps in understanding the Global On-board Connectivity Market dynamics, structure by identifying and analysing the market segments and project the global market size. Further, the report also focuses on the competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence. The report also provides PEST analysis, PORTER’s analysis, and SWOT analysis to address questions of shareholders to prioritizing the efforts and investment in the near future to the emerging segment in the Global On-board Connectivity Market.On-board Connectivity Market, Key Highlights:
• Global On-board Connectivity Market analysis and forecast, in terms of value. • Comprehensive study and analysis of market drivers, restraints and opportunities influencing the growth of the Global On-board Connectivity Market • Global On-board Connectivity Market segmentation on the basis of type, source, end-user, and region (country-wise) has been provided. • Global On-board Connectivity Market strategic analysis with respect to individual growth trends, future prospects along with the contribution of various sub-market stakeholders have been considered under the scope of study. • Global On-board Connectivity Market analysis and forecast for five major regions namely North America, Europe, Asia Pacific, the Middle East & Africa (MEA) and Latin America along with country-wise segmentation. • Profiles of key industry players, their strategic perspective, market positioning and analysis of core competencies are further profiled. • Competitive developments, investments, strategic expansion and competitive landscape of the key players operating in the Global On-board Connectivity Market are also profiled.Scope of Global On-board Connectivity Market: Inquire before buying
Global On-board Connectivity Market Report Coverage Details Base Year: 2021 Forecast Period: 2022-2029 Historical Data: 2017 to 2021 Market Size in 2021: US $ 21.86 Bn. Forecast Period 2022 to 2029 CAGR: 14.3% Market Size in 2029: US $ 63.68 Bn. Segments Covered: by Component • Hardware • Antennas • Transceivers • Ethernet Switches • Wireless Access Point • Services • Managed Service • Consulting Service • Integration and Implementation Service by Technology • Satellite • Ka-band Technology • Ku-band Technology • Swift Broadband Technology • Hybrid • Ground to air by Application • Entertainment • Communication by End-User • Maritime • Railway • Aviation • On-road Transit • Cars • Buses On-board Connectivity Market, by Region:
• North America • Europe • Asia-Pacific • South America • Middle East & AfricaOn-board Connectivity Market Key Players are:
• Alstom • Cubic Corporation • Hitachi, Ltd. • Mitsubishi Electric Corporation • Siemens AG • Singapore Technologies Electronics Limited • Teleste Corporation • Toshiba Corporations • Alcatel-Lucent • AT&T • Honeywell International • Qualcomm • Collins Aerospace • Bombardier Aerospace • Huawei Technologies • Panasonic • Nomad Digital • ZTE • ALE International • Global Eagle Entertainment Inc. • Gogo Inc. • International Inc. • Inmarsat Plc.Frequently Asked questions
1. What is the market size of the Global On-board Connectivity Market in 2021? Ans. The market size Global On-board Connectivity Market in 2021 was US$ 21.86 Billion. 2. What are the different segments of the Global On-board Connectivity Market? Ans. The Global On-board Connectivity Market is divided into Component, Technology, Application and End-User. 3. What is the study period of this market? Ans. The Global On-board Connectivity Market will be studied from 2021 to 2029. 4. Which region is expected to hold the highest Global On-board Connectivity Market share? Ans. The Asia Pacific dominates the market share in the market. 5. What is the Forecast Period of Global On-board Connectivity Market? Ans. The Forecast Period of the market is 2022-2029 in the market.
Table of Content
1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary : Global On-board Connectivity Market, by Market Value (US$ Bn) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends in Global On-board Connectivity Market 5. Supply Side and Demand Side Indicators 6. Global On-board Connectivity Market Analysis and Forecast 6.1. Global On-board Connectivity Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global On-board Connectivity Market Analysis and Forecast, By Component 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global On-board Connectivity Market Value Share Analysis, By Component 7.4. Global On-board Connectivity Market Size (US$ Bn) Forecast, By Component 7.5. Global On-board Connectivity Market Analysis, By Component 7.6. Global On-board Connectivity Market Attractiveness Analysis, By Component 8. Global On-board Connectivity Market Analysis and Forecast, By Technology 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global On-board Connectivity Market Value Share Analysis, By Technology 8.4. Global On-board Connectivity Market Size (US$ Bn) Forecast, By Technology 8.5. Global On-board Connectivity Market Analysis, By Technology 8.6. Global On-board Connectivity Market Attractiveness Analysis, By Technology 9. Global On-board Connectivity Market Analysis and Forecast, by Application 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global On-board Connectivity Market Value Share Analysis, by Application 9.4. Global On-board Connectivity Market Size (US$ Bn) Forecast, by Application 9.5. Global On-board Connectivity Market Analysis, by Application 9.6. Global On-board Connectivity Market Attractiveness Analysis, by Application 10. Global On-board Connectivity Market Analysis and Forecast, By End Use 10.1. Introduction and Definition 10.2. Key Findings 10.3. Global On-board Connectivity Market Value Share Analysis, By End Use 10.4. Global On-board Connectivity Market Size (US$ Bn) Forecast, By End Use 10.5. Global On-board Connectivity Market Analysis, By End Use 10.6. Global On-board Connectivity Market Attractiveness Analysis, By End Use 11. Global On-board Connectivity Market Analysis, by Region 11.1. Global On-board Connectivity Market Value Share Analysis, by Region 11.2. Global On-board Connectivity Market Size (US$ Bn) Forecast, by Region 11.3. Global On-board Connectivity Market Attractiveness Analysis, by Region 12. North America On-board Connectivity Market Analysis 12.1. Key Findings 12.2. North America On-board Connectivity Market Overview 12.3. North America On-board Connectivity Market Value Share Analysis, By Component 12.4. North America On-board Connectivity Market Forecast, By Component 12.4.1. Hardware 12.4.2. Antennas 12.4.3. Transceivers 12.4.4. Ethernet Switches 12.4.5. Wireless Access Point 12.4.6. Services 12.4.7. Managed Service 12.4.8. Consulting Service 12.4.9. Integration and Implementation Service 12.5. North America On-board Connectivity Market Value Share Analysis, By Technology 12.6. North America On-board Connectivity Market Forecast, By Technology 12.6.1. Satellite 12.6.2. Ka-band Technology 12.6.3. Ku-band Technology 12.6.4. Swift Broadband Technology 12.6.5. Hybrid 12.6.6. Ground to air 12.7. North America On-board Connectivity Market Value Share Analysis, by Application 12.8. North America On-board Connectivity Market Forecast, by Application 12.8.1. Entertainment 12.8.2. Communication 12.9. North America On-board Connectivity Market Value Share Analysis, By End Use 12.10. North America On-board Connectivity Market Forecast, By End Use 12.10.1. Maritime 12.10.2. Railway 12.10.3. Aviation 12.10.4. On-road Transit 12.10.5. Cars 12.10.6. Buses 12.11. North America On-board Connectivity Market Value Share Analysis, by Country 12.12. North America On-board Connectivity Market Forecast, by Country 12.12.1. U.S. 12.12.2. Canada 12.13. North America On-board Connectivity Market Analysis, by Country 12.14. U.S. On-board Connectivity Market Forecast, By Component 12.14.1. Hardware 12.14.2. Antennas 12.14.3. Transceivers 12.14.4. Ethernet Switches 12.14.5. Wireless Access Point 12.14.6. Services 12.14.7. Managed Service 12.14.8. Consulting Service 12.14.9. Integration and Implementation Service 12.15. U.S. On-board Connectivity Market Forecast, By Technology 12.15.1. Satellite 12.15.2. Ka-band Technology 12.15.3. Ku-band Technology 12.15.4. Swift Broadband Technology 12.15.5. Hybrid 12.15.6. Ground to air 12.16. U.S. On-board Connectivity Market Forecast, by Application 12.16.1. Entertainment 12.16.2. Communication 12.17. U.S. On-board Connectivity Market Forecast, By End Use 12.17.1. Maritime 12.17.2. Railway 12.17.3. Aviation 12.17.4. On-road Transit 12.17.5. Cars 12.17.6. Buses 12.18. Canada On-board Connectivity Market Forecast, By Component 12.18.1. Hardware 12.18.2. Antennas 12.18.3. Transceivers 12.18.4. Ethernet Switches 12.18.5. Wireless Access Point 12.18.6. Services 12.18.7. Managed Service 12.18.8. Consulting Service 12.18.9. Integration and Implementation Service 12.19. Canada On-board Connectivity Market Forecast, By Technology 12.19.1. Satellite 12.19.2. Ka-band Technology 12.19.3. Ku-band Technology 12.19.4. Swift Broadband Technology 12.19.5. Hybrid 12.19.6. Ground to air 12.20. Canada On-board Connectivity Market Forecast, by Application 12.20.1. Entertainment 12.20.2. Communication 12.21. Canada On-board Connectivity Market Forecast, By End Use 12.21.1. Maritime 12.21.2. Railway 12.21.3. Aviation 12.21.4. On-road Transit 12.21.5. Cars 12.21.6. Buses 12.22. North America On-board Connectivity Market Attractiveness Analysis 12.22.1. By Component 12.22.2. By Technology 12.22.3. By Application 12.22.4. By End Use 12.23. PEST Analysis 12.24. Key Trends 12.25. Key Development 13. Europe On-board Connectivity Market Analysis 13.1. Key Findings 13.2. Europe On-board Connectivity Market Overview 13.3. Europe On-board Connectivity Market Value Share Analysis, By Component 13.4. Europe On-board Connectivity Market Forecast, By Component 13.4.1. Hardware 13.4.2. Antennas 13.4.3. Transceivers 13.4.4. Ethernet Switches 13.4.5. Wireless Access Point 13.4.6. Services 13.4.7. Managed Service 13.4.8. Consulting Service 13.4.9. Integration and Implementation Service 13.5. Europe On-board Connectivity Market Value Share Analysis, By Technology 13.6. Europe On-board Connectivity Market Forecast, By Technology 13.6.1. Satellite 13.6.2. Ka-band Technology 13.6.3. Ku-band Technology 13.6.4. Swift Broadband Technology 13.6.5. Hybrid 13.6.6. Ground to air 13.7. Europe On-board Connectivity Market Value Share Analysis, by Application 13.8. Europe On-board Connectivity Market Forecast, by Application 13.8.1. Entertainment 13.8.2. Communication 13.9. Europe On-board Connectivity Market Value Share Analysis, By End Use 13.10. Europe On-board Connectivity Market Forecast, By End Use 13.10.1. Maritime 13.10.2. Railway 13.10.3. Aviation 13.10.4. On-road Transit 13.10.5. Cars 13.10.6. Buses 13.11. Others Europe On-board Connectivity Market Value Share Analysis, by Country 13.12. Europe On-board Connectivity Market Forecast, by Country 13.12.1. Germany 13.12.2. U.K. 13.12.3. France 13.12.4. Italy 13.12.5. Spain 13.12.6. Rest of Europe 13.13. Europe On-board Connectivity Market Analysis, by Country 13.14. Germany On-board Connectivity Market Forecast, By Component 13.14.1. Hardware 13.14.2. Antennas 13.14.3. Transceivers 13.14.4. Ethernet Switches 13.14.5. Wireless Access Point 13.14.6. Services 13.14.7. Managed Service 13.14.8. Consulting Service 13.14.9. Integration and Implementation Service 13.15. Germany On-board Connectivity Market Forecast, By Technology 13.15.1. Satellite 13.15.2. Ka-band Technology 13.15.3. Ku-band Technology 13.15.4. Swift Broadband Technology 13.15.5. Hybrid 13.15.6. Ground to air 13.16. Germany On-board Connectivity Market Forecast, by Application 13.16.1. Entertainment 13.16.2. Communication 13.17. Germany On-board Connectivity Market Forecast, By End Use 13.17.1. Maritime 13.17.2. Railway 13.17.3. Aviation 13.17.4. On-road Transit 13.17.5. Cars 13.17.6. Buses 13.18. U.K. On-board Connectivity Market Forecast, By Component 13.18.1. Hardware 13.18.2. Antennas 13.18.3. Transceivers 13.18.4. Ethernet Switches 13.18.5. Wireless Access Point 13.18.6. Services 13.18.7. Managed Service 13.18.8. Consulting Service 13.18.9. Integration and Implementation Service 13.19. U.K. On-board Connectivity Market Forecast, By Technology 13.19.1. Satellite 13.19.2. Ka-band Technology 13.19.3. Ku-band Technology 13.19.4. Swift Broadband Technology 13.19.5. Hybrid 13.19.6. Ground to air 13.20. U.K. On-board Connectivity Market Forecast, by Application 13.20.1. Entertainment 13.20.2. Communication 13.21. U.K. On-board Connectivity Market Forecast, By End Use 13.21.1. Maritime 13.21.2. Railway 13.21.3. Aviation 13.21.4. On-road Transit 13.21.5. Cars 13.21.6. Buses 13.22. France On-board Connectivity Market Forecast, By Component 13.22.1. Hardware 13.22.2. Antennas 13.22.3. Transceivers 13.22.4. Ethernet Switches 13.22.5. Wireless Access Point 13.22.6. Services 13.22.7. Managed Service 13.22.8. Consulting Service 13.22.9. Integration and Implementation Service 13.23. France On-board Connectivity Market Forecast, By Technology 13.23.1. Satellite 13.23.2. Ka-band Technology 13.23.3. Ku-band Technology 13.23.4. Swift Broadband Technology 13.23.5. Hybrid 13.23.6. Ground to air 13.24. France On-board Connectivity Market Forecast, by Application 13.24.1. Entertainment 13.24.2. Communication 13.25. France On-board Connectivity Market Forecast, By End Use 13.25.1. Maritime 13.25.2. Railway 13.25.3. Aviation 13.25.4. On-road Transit 13.25.5. Cars 13.25.6. Buses 13.26. Italy On-board Connectivity Market Forecast, By Component 13.26.1. Hardware 13.26.2. Antennas 13.26.3. Transceivers 13.26.4. Ethernet Switches 13.26.5. Wireless Access Point 13.26.6. Services 13.26.7. Managed Service 13.26.8. Consulting Service 13.26.9. Integration and Implementation Service 13.27. Italy On-board Connectivity Market Forecast, By Technology 13.27.1. Satellite 13.27.2. Ka-band Technology 13.27.3. Ku-band Technology 13.27.4. Swift Broadband Technology 13.27.5. Hybrid 13.27.6. Ground to air 13.28. Italy On-board Connectivity Market Forecast, by Application 13.28.1. Entertainment 13.28.2. Communication 13.29. Italy On-board Connectivity Market Forecast, By End Use 13.29.1. Maritime 13.29.2. Railway 13.29.3. Aviation 13.29.4. On-road Transit 13.29.5. Cars 13.29.6. Buses 13.30. Spain On-board Connectivity Market Forecast, By Component 13.30.1. Hardware 13.30.2. Antennas 13.30.3. Transceivers 13.30.4. Ethernet Switches 13.30.5. Wireless Access Point 13.30.6. Services 13.30.7. Managed Service 13.30.8. Consulting Service 13.30.9. Integration and Implementation Service 13.31. Spain On-board Connectivity Market Forecast, By Technology 13.31.1. Satellite 13.31.2. Ka-band Technology 13.31.3. Ku-band Technology 13.31.4. Swift Broadband Technology 13.31.5. Hybrid 13.31.6. Ground to air 13.32. Spain On-board Connectivity Market Forecast, by Application 13.32.1. Entertainment 13.32.2. Communication 13.33. Spain On-board Connectivity Market Forecast, By End Use 13.33.1. Maritime 13.33.2. Railway 13.33.3. Aviation 13.33.4. On-road Transit 13.33.5. Cars 13.33.6. Buses 13.34. Rest of Europe On-board Connectivity Market Forecast, By Component 13.34.1. Hardware 13.34.2. Antennas 13.34.3. Transceivers 13.34.4. Ethernet Switches 13.34.5. Wireless Access Point 13.34.6. Services 13.34.7. Managed Service 13.34.8. Consulting Service 13.34.9. Integration and Implementation Service 13.35. Rest of Europe On-board Connectivity Market Forecast, By Technology 13.35.1. Satellite 13.35.2. Ka-band Technology 13.35.3. Ku-band Technology 13.35.4. Swift Broadband Technology 13.35.5. Hybrid 13.35.6. Ground to air 13.36. Rest of Europe On-board Connectivity Market Forecast, by Application 13.36.1. Entertainment 13.36.2. Communication 13.37. Rest Of Europe On-board Connectivity Market Forecast, By End Use 13.37.1. Maritime 13.37.2. Railway 13.37.3. Aviation 13.37.4. On-road Transit 13.37.5. Cars 13.37.6. Buses 13.38. Europe On-board Connectivity Market Attractiveness Analysis 13.38.1. By Component 13.38.2. By Technology 13.38.3. By Application 13.38.4. By End Use 13.39. PEST Analysis 13.40. Key Trends 13.41. Key Development 14. Asia Pacific On-board Connectivity Market Analysis 14.1. Key Findings 14.2. Asia Pacific On-board Connectivity Market Overview 14.3. Asia Pacific On-board Connectivity Market Value Share Analysis, By Component 14.4. Asia Pacific On-board Connectivity Market Forecast, By Component 14.4.1. Hardware 14.4.2. Antennas 14.4.3. Transceivers 14.4.4. Ethernet Switches 14.4.5. Wireless Access Point 14.4.6. Services 14.4.7. Managed Service 14.4.8. Consulting Service 14.4.9. Integration and Implementation Service 14.5. Asia Pacific On-board Connectivity Market Value Share Analysis, By Technology 14.6. Asia Pacific On-board Connectivity Market Forecast, By Technology 14.6.1. Satellite 14.6.2. Ka-band Technology 14.6.3. Ku-band Technology 14.6.4. Swift Broadband Technology 14.6.5. Hybrid 14.6.6. Ground to air 14.7. Asia Pacific On-board Connectivity Market Value Share Analysis, by Application 14.8. Asia Pacific On-board Connectivity Market Forecast, by Application 14.8.1. Entertainment 14.8.2. Communication 14.9. Asia Pacific On-board Connectivity Market Value Share Analysis, By End Use 14.10. Asia Pacific On-board Connectivity Market Forecast, By End Use 14.10.1. Maritime 14.10.2. Railway 14.10.3. Aviation 14.10.4. On-road Transit 14.10.5. Cars 14.10.6. Buses 14.11. Asia Pacific On-board Connectivity Market Value Share Analysis, by Country 14.12. Asia Pacific On-board Connectivity Market Forecast, by Country 14.12.1. China 14.12.2. India 14.12.3. Japan 14.12.4. ASEAN 14.12.5. Rest of Asia Pacific 14.13. Asia Pacific On-board Connectivity Market Analysis, by Country 14.14. China On-board Connectivity Market Forecast, By Component 14.14.1. Hardware 14.14.2. Antennas 14.14.3. Transceivers 14.14.4. Ethernet Switches 14.14.5. Wireless Access Point 14.14.6. Services 14.14.7. Managed Service 14.14.8. Consulting Service 14.14.9. Integration and Implementation Service 14.15. China On-board Connectivity Market Forecast, By Technology 14.15.1. Satellite 14.15.2. Ka-band Technology 14.15.3. Ku-band Technology 14.15.4. Swift Broadband Technology 14.15.5. Hybrid 14.15.6. Ground to air 14.16. China On-board Connectivity Market Forecast, by Application 14.16.1. Entertainment 14.16.2. Communication 14.17. China On-board Connectivity Market Forecast, By End Use 14.17.1. Maritime 14.17.2. Railway 14.17.3. Aviation 14.17.4. On-road Transit 14.17.5. Cars 14.17.6. Buses 14.18. India On-board Connectivity Market Forecast, By Component 14.18.1. Hardware 14.18.2. Antennas 14.18.3. Transceivers 14.18.4. Ethernet Switches 14.18.5. Wireless Access Point 14.18.6. Services 14.18.7. Managed Service 14.18.8. Consulting Service 14.18.9. Integration and Implementation Service 14.19. India On-board Connectivity Market Forecast, By Technology 14.19.1. Satellite 14.19.2. Ka-band Technology 14.19.3. Ku-band Technology 14.19.4. Swift Broadband Technology 14.19.5. Hybrid 14.19.6. Ground to air 14.20. India On-board Connectivity Market Forecast, by Application 14.20.1. Entertainment 14.20.2. Communication 14.21. India On-board Connectivity Market Forecast, By End Use 14.21.1. Maritime 14.21.2. Railway 14.21.3. Aviation 14.21.4. On-road Transit 14.21.5. Cars 14.21.6. Buses 14.22. Japan On-board Connectivity Market Forecast, By Component 14.22.1. Hardware 14.22.2. Antennas 14.22.3. Transceivers 14.22.4. Ethernet Switches 14.22.5. Wireless Access Point 14.22.6. Services 14.22.7. Managed Service 14.22.8. Consulting Service 14.22.9. Integration and Implementation Service 14.23. Japan On-board Connectivity Market Forecast, By Technology 14.23.1. Satellite 14.23.2. Ka-band Technology 14.23.3. Ku-band Technology 14.23.4. Swift Broadband Technology 14.23.5. Hybrid 14.23.6. Ground to air 14.24. Japan On-board Connectivity Market Forecast, by Application 14.24.1. Entertainment 14.24.2. Communication 14.25. Japan On-board Connectivity Market Forecast, By End Use 14.25.1. Maritime 14.25.2. Railway 14.25.3. Aviation 14.25.4. On-road Transit 14.25.5. Cars 14.25.6. Buses 14.26. ASEAN On-board Connectivity Market Forecast, By Component 14.26.1. Hardware 14.26.2. Antennas 14.26.3. Transceivers 14.26.4. Ethernet Switches 14.26.5. Wireless Access Point 14.26.6. Services 14.26.7. Managed Service 14.26.8. Consulting Service 14.26.9. Integration and Implementation Service 14.27. ASEAN On-board Connectivity Market Forecast, By Technology 14.27.1. Satellite 14.27.2. Ka-band Technology 14.27.3. Ku-band Technology 14.27.4. Swift Broadband Technology 14.27.5. Hybrid 14.27.6. Ground to air 14.28. ASEAN On-board Connectivity Market Forecast, by Application 14.28.1. Entertainment 14.28.2. Communication 14.29. ASEAN On-board Connectivity Market Forecast, By End Use 14.29.1. Maritime 14.29.2. Railway 14.29.3. Aviation 14.29.4. On-road Transit 14.29.5. Cars 14.29.6. Buses 14.30. Rest of Asia Pacific On-board Connectivity Market Forecast, By Component 14.30.1. Hardware 14.30.2. Antennas 14.30.3. Transceivers 14.30.4. Ethernet Switches 14.30.5. Wireless Access Point 14.30.6. Services 14.30.7. Managed Service 14.30.8. Consulting Service 14.30.9. Integration and Implementation Service 14.31. Rest of Asia Pacific On-board Connectivity Market Forecast, By Technology 14.31.1. Satellite 14.31.2. Ka-band Technology 14.31.3. Ku-band Technology 14.31.4. Swift Broadband Technology 14.31.5. Hybrid 14.31.6. Ground to air 14.32. Rest of Asia Pacific On-board Connectivity Market Forecast, by Application 14.32.1. Entertainment 14.32.2. Communication 14.33. Rest of Asia Pacific On-board Connectivity Market Forecast, By End Use 14.33.1. Maritime 14.33.2. Railway 14.33.3. Aviation 14.33.4. On-road Transit 14.33.5. Cars 14.33.6. Buses 14.34. Asia Pacific On-board Connectivity Market Attractiveness Analysis 14.34.1. By Component 14.34.2. By Technology 14.34.3. By Application 14.34.4. By End Use 14.35. PEST Analysis 14.36. Key Trends 14.37. Key Development 15. Middle East & Africa On-board Connectivity Market Analysis 15.1. Key Findings 15.2. Middle East & Africa On-board Connectivity Market Overview 15.3. Middle East & Africa On-board Connectivity Market Value Share Analysis, By Component 15.4. Middle East & Africa On-board Connectivity Market Forecast, By Component 15.4.1. Hardware 15.4.2. Antennas 15.4.3. Transceivers 15.4.4. Ethernet Switches 15.4.5. Wireless Access Point 15.4.6. Services 15.4.7. Managed Service 15.4.8. Consulting Service 15.4.9. Integration and Implementation Service 15.5. Middle East & Africa On-board Connectivity Market Value Share Analysis, By Technology 15.6. Middle East & Africa On-board Connectivity Market Forecast, By Technology 15.6.1. Satellite 15.6.2. Ka-band Technology 15.6.3. Ku-band Technology 15.6.4. Swift Broadband Technology 15.6.5. Hybrid 15.6.6. Ground to air 15.7. Middle East & Africa On-board Connectivity Market Value Share Analysis, by Application 15.8. Middle East & Africa On-board Connectivity Market Forecast, by Application 15.8.1. Entertainment 15.8.2. Communication 15.9. Middle East & Africa On-board Connectivity Market Value Share Analysis, By End Use 15.10. Middle East & Africa On-board Connectivity Market Forecast, By End Use 15.10.1. Maritime 15.10.2. Railway 15.10.3. Aviation 15.10.4. On-road Transit 15.10.5. Cars 15.10.6. Buses 15.11. Middle East & Africa On-board Connectivity Market Value Share Analysis, by Country 15.12. Middle East & Africa On-board Connectivity Market Forecast, by Country 15.12.1. GCC 15.12.2. South Africa 15.12.3. Rest of Middle East & Africa 15.13. Middle East & Africa On-board Connectivity Market Analysis, by Country 15.14. GCC On-board Connectivity Market Forecast, By Component 15.14.1. Hardware 15.14.2. Antennas 15.14.3. Transceivers 15.14.4. Ethernet Switches 15.14.5. Wireless Access Point 15.14.6. Services 15.14.7. Managed Service 15.14.8. Consulting Service 15.14.9. Integration and Implementation Service 15.15. GCC On-board Connectivity Market Forecast, By Technology 15.15.1. Satellite 15.15.2. Ka-band Technology 15.15.3. Ku-band Technology 15.15.4. Swift Broadband Technology 15.15.5. Hybrid 15.15.6. Ground to air 15.16. GCC On-board Connectivity Market Forecast, by Application 15.16.1. Entertainment 15.16.2. Communication 15.17. GCC On-board Connectivity Market Forecast, By End Use 15.17.1. Maritime 15.17.2. Railway 15.17.3. Aviation 15.17.4. On-road Transit 15.17.5. Cars 15.17.6. Buses 15.18. South Africa On-board Connectivity Market Forecast, By Component 15.18.1. Hardware 15.18.2. Antennas 15.18.3. Transceivers 15.18.4. Ethernet Switches 15.18.5. Wireless Access Point 15.18.6. Services 15.18.7. Managed Service 15.18.8. Consulting Service 15.18.9. Integration and Implementation Service 15.19. South Africa On-board Connectivity Market Forecast, By Technology 15.19.1. Satellite 15.19.2. Ka-band Technology 15.19.3. Ku-band Technology 15.19.4. Swift Broadband Technology 15.19.5. Hybrid 15.19.6. Ground to air 15.20. South Africa On-board Connectivity Market Forecast, by Application 15.20.1. Entertainment 15.20.2. Communication 15.21. South Africa On-board Connectivity Market Forecast, By End Use 15.21.1. Maritime 15.21.2. Railway 15.21.3. Aviation 15.21.4. On-road Transit 15.21.5. Cars 15.21.6. Buses 15.22. Rest of Middle East & Africa On-board Connectivity Market Forecast, By Component 15.22.1. Hardware 15.22.2. Antennas 15.22.3. Transceivers 15.22.4. Ethernet Switches 15.22.5. Wireless Access Point 15.22.6. Services 15.22.7. Managed Service 15.22.8. Consulting Service 15.22.9. Integration and Implementation Service 15.23. Rest of Middle East & Africa On-board Connectivity Market Forecast, By Technology 15.23.1. Satellite 15.23.2. Ka-band Technology 15.23.3. Ku-band Technology 15.23.4. Swift Broadband Technology 15.23.5. Hybrid 15.23.6. Ground to air 15.24. Rest of Middle East & Africa On-board Connectivity Market Forecast, by Application 15.24.1. Entertainment 15.24.2. Communication 15.25. Rest of Middle East & Africa On-board Connectivity Market Forecast, By End Use 15.25.1. Maritime 15.25.2. Railway 15.25.3. Aviation 15.25.4. On-road Transit 15.25.5. Cars 15.25.6. Buses 15.26. Middle East & Africa On-board Connectivity Market Attractiveness Analysis 15.26.1. By Component 15.26.2. By Technology 15.26.3. By Application 15.26.4. By End Use 15.27. PEST Analysis 15.28. Key Trends 15.29. Key Development 16. South America On-board Connectivity Market Analysis 16.1. Key Findings 16.2. South America On-board Connectivity Market Overview 16.3. South America On-board Connectivity Market Value Share Analysis, By Component 16.4. South America On-board Connectivity Market Forecast, By Component 16.4.1. Hardware 16.4.2. Antennas 16.4.3. Transceivers 16.4.4. Ethernet Switches 16.4.5. Wireless Access Point 16.4.6. Services 16.4.7. Managed Service 16.4.8. Consulting Service 16.4.9. Integration and Implementation Service 16.5. South America On-board Connectivity Market Value Share Analysis, By Technology 16.6. South America On-board Connectivity Market Forecast, By Technology 16.6.1. Satellite 16.6.2. Ka-band Technology 16.6.3. Ku-band Technology 16.6.4. Swift Broadband Technology 16.6.5. Hybrid 16.6.6. Ground to air 16.7. South America On-board Connectivity Market Value Share Analysis, by Application 16.8. South America On-board Connectivity Market Forecast, by Application 16.8.1. Entertainment 16.8.2. Communication 16.9. South America On-board Connectivity Market Value Share Analysis, By End Use 16.10. South America On-board Connectivity Market Forecast, By End Use 16.10.1. Maritime 16.10.2. Railway 16.10.3. Aviation 16.10.4. On-road Transit 16.10.5. Cars 16.10.6. Buses 16.11. South America On-board Connectivity Market Value Share Analysis, by Country 16.12. South America On-board Connectivity Market Forecast, by Country 16.12.1. Brazil 16.12.2. Mexico 16.12.3. Rest of South America 16.13. South America On-board Connectivity Market Analysis, by Country 16.14. Brazil On-board Connectivity Market Forecast, By Component 16.14.1. Hardware 16.14.2. Antennas 16.14.3. Transceivers 16.14.4. Ethernet Switches 16.14.5. Wireless Access Point 16.14.6. Services 16.14.7. Managed Service 16.14.8. Consulting Service 16.14.9. Integration and Implementation Service 16.15. Brazil On-board Connectivity Market Forecast, By Technology 16.15.1. Satellite 16.15.2. Ka-band Technology 16.15.3. Ku-band Technology 16.15.4. Swift Broadband Technology 16.15.5. Hybrid 16.15.6. Ground to air 16.16. Brazil On-board Connectivity Market Forecast, by Application 16.16.1. Entertainment 16.16.2. Communication 16.17. Brazil On-board Connectivity Market Forecast, By End Use 16.17.1. Maritime 16.17.2. Railway 16.17.3. Aviation 16.17.4. On-road Transit 16.17.5. Cars 16.17.6. Buses 16.18. Mexico On-board Connectivity Market Forecast, By Component 16.18.1. Hardware 16.18.2. Antennas 16.18.3. Transceivers 16.18.4. Ethernet Switches 16.18.5. Wireless Access Point 16.18.6. Services 16.18.7. Managed Service 16.18.8. Consulting Service 16.18.9. Integration and Implementation Service 16.19. Mexico On-board Connectivity Market Forecast, By Technology 16.19.1. Satellite 16.19.2. Ka-band Technology 16.19.3. Ku-band Technology 16.19.4. Swift Broadband Technology 16.19.5. Hybrid 16.19.6. Ground to air 16.20. Mexico On-board Connectivity Market Forecast, by Application 16.20.1. Entertainment 16.20.2. Communication 16.21. Mexico On-board Connectivity Market Forecast, By End Use 16.21.1. Maritime 16.21.2. Railway 16.21.3. Aviation 16.21.4. On-road Transit 16.21.5. Cars 16.21.6. Buses 16.22. Rest of South America On-board Connectivity Market Forecast, By Component 16.22.1. Hardware 16.22.2. Antennas 16.22.3. Transceivers 16.22.4. Ethernet Switches 16.22.5. Wireless Access Point 16.22.6. Services 16.22.7. Managed Service 16.22.8. Consulting Service 16.22.9. Integration and Implementation Service 16.23. Rest of South America On-board Connectivity Market Forecast, By Technology 16.23.1. Satellite 16.23.2. Ka-band Technology 16.23.3. Ku-band Technology 16.23.4. Swift Broadband Technology 16.23.5. Hybrid 16.23.6. Ground to air 16.24. Rest of South America On-board Connectivity Market Forecast, by Application 16.24.1. Entertainment 16.24.2. Communication 16.25. Rest of South America On-board Connectivity Market Forecast, By End Use 16.25.1. Maritime 16.25.2. Railway 16.25.3. Aviation 16.25.4. On-road Transit 16.25.5. Cars 16.25.6. Buses 16.26. South America On-board Connectivity Market Attractiveness Analysis 16.26.1. By Component 16.26.2. By Technology 16.26.3. By Application 16.26.4. By End Use 16.27. PEST Analysis 16.28. Key Trends 16.29. Key Development 17. Company Profiles 17.1. Market Share Analysis, by Company 17.2. Competition Matrix 17.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 17.2.2. New Product Launches and Product Enhancements 17.2.3. Market Consolidation 17.2.3.1. M&A by Regions, Investment and Applications 17.2.3.2. M&A Key Players, Forward Integration and Backward Integration 17.3. Company Profiles: Key Players 17.3.1. Alstom 17.3.1.1. Company Overview 17.3.1.2. Financial Overview 17.3.1.3. Product Portfolio 17.3.1.4. Business Strategy 17.3.1.5. Recent Developments 17.3.1.6. Company Footprint 17.3.2. Cubic Corporation 17.3.3. Hitachi, Ltd. 17.3.4. Mitsubishi Electric Corporation 17.3.5. Siemens AG 17.3.6. Singapore Technologies Electronics Limited 17.3.7. Teleste Corporation 17.3.8. Toshiba Corporations 17.3.9. Alcatel-Lucent 17.3.10. AT&T 17.3.11. Honeywell International 17.3.12. Qualcomm 17.3.13. Collins Aerospace 17.3.14. Bombardier Aerospace 17.3.15. Huawei Technologies 17.3.16. Panasonic 17.3.17. Nomad Digital 17.3.18. ZTE 17.3.19. ALE International 17.3.20. Global Eagle Entertainment Inc. 17.3.21. Gogo Inc. 17.3.22. International Inc. 17.3.23. Inmarsat Plc. 18. Primary Key Insights