Global High-Altitude Aeronautical Platform Station (HAAPS) Market – Analysis and Forecast, 2018-2028

Focus on Platform (Unmanned Aerial Vehicles, Airships, Balloons, Tethered Aerostats and Tethered Drones), Payload, and End-Users

Published Year: 2018
SKU: SA00602SA

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Report Description

The global High-Altitude Aeronautics Platform Station (HAAPS) market has exhibited a high growth in the recent past. Increasing competitive

View updated report: Global High-Altitude Aeronautical Platform Station (HAAPS) Market:Focus on Platform (Unmanned Aerial Vehicles (UAVs), Airships, and Balloons), Payload, and End User(Government and Defense and Commercial)- Analysis and Forecast, 2019-2029

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The global High-Altitude Aeronautics Platform Station (HAAPS) market has exhibited a high growth in the recent past. Increasing competitive advantages of HAAPS over conventional- and terrestrial-based systems have made it an essential system for military and commercial applications. Factors, such as low operation cost, rapid deployment, and large coverage area of HAAPS, have increased its adoption in defense and telecommunication industry. Moreover, HAAPS offers less propagation delay, and thus, enabling faster broadband capabilities. HAAPS has a potential to tap into several application areas such as earth observation (earthquakes, volcanic eruptions, landslides, oil spills, and others). These platforms have the capability to provide military communications facilities in remote areas therefore, they are increasingly being used for intelligence, surveillance, and reconnaissance missions in military. Additionally, increased tensions across the borders and growing terrorism are some of the factors that are propelling the adoption of the HAAPS market.
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Topics Covered in the Report

This report identifies the global HAAPS market in different segments, such as platform, payload, end user, and region.

•    This report identifies the global HAAPS market in different segments, such as platform, payload, end user, and region.
•    The study talks about the prime supply side factors affecting the growth of the market along with the current and future trends in the HAAPS market.
•    The study also presents a detailed assessment of the HAAPS market along with market drivers, challenges, and growth opportunities.
•    The report also highlights the value chain of the overall HAAPS industry.
•    A detailed competitive analysis has been included in this report which focuses on the key market developments and strategies followed by the major players in the market.
•    The HAAPS market is also analyzed on the basis of different platforms such as Unmanned Aerial Vehicles (UAVs), airships, balloons, tethered aerostats, and tethered drones.
•    In this report, various end users of the HAAPS market have also been studied. The end-users include commercial and government & defense.
•    The HAAPS market has been analyzed for all the regions including North America, Europe, Asia Pacific, and Rest-of-the-World with further analysis with respect to several major countries in the region.
•    The key market players are analyzed and profiled in detail in the Company Profiles section of the report. This section covers the business financials, company snapshots, key products & services, major developments, and, the individual SWOT analysis.
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Market Overview

The global High-Altitude Aeronautics Platform Station (HAAPS) market has exhibited a high growth in the recent past.

Lighter Than Air technology (LTA) has been with significant improvements over the last decade. Military and civilian organizations have been researching on the LTA technology to investigate its use in diverse applications (airships and balloons). Initially balloons were used by the military to monitor the troops movement during the American Civil War. Modern LTA vehicles are advanced and military forces are continuing to use it for intelligence, surveillance, and reconnaissance mission. With the growing number of terrorist activities across the globe, military forces are increasingly using LTA technology to keep an eye over the illegal crossings at the borders.

With the growing uses of LTA technology in commercial and military applications, the research on high-altitude platforms has begun for the ends-users. High-Altitude Aeronautics Platform Station (HAAPS) is an object in a space at an altitude of 20 km to 50 km. These platforms can be manned or unmanned based on the requirement of various applications.

However, unmanned platforms are increasingly preferred in comparison to that of the manned platforms, owing to the long endurance of unmanned platforms.

The demand for HAAPS is majorly attributed to the increased advantages of HAAPS over conventional satellite and terrestrial-based systems. Additionally, growing terrorism and increased tensions across the borders are some of the factors that are propelling the adoption of the high-altitude platforms. Moreover, the military modernization programs of the different armed forces are strengthening the homeland security of the forces, pushing the sales of HAAPS market.

The HAAPS market generated a revenue of $3,756.8 million in 2017, with military end-user holding the highest share.

The Unmanned Aerial Vehicles (UAVs) market accounts for a large share in overall revenue generated. The high share of UAVs is mainly attributed to the growing need of UAVs for surveillance across defense agencies. Additionally, several manufacturers are conducting research on the development of solar-powered UAV for its use in providing internet connectivity to remote areas.

North America, followed by Europe, Asia Pacific, and Rest-of-the-world, is expected to dominate the market during the forecast period (2018-2028). The United States is the leading country in the HAAPS market, globally and the country is expected to maintain its dominance during the forecast period. Asia Pacific is expected to grow at the highest CAGR with China dominating the market in this region. This region is growing at a much faster rate as compared to North America and Europe due to continuous efforts by both the government and HAAPS manufacturers.

Some of the key players in the HAAPS market include: Lockheed Martin, Raytheon, Airbus, TCOM L.P., Thales Alenia Space, Bye Aerospace, Raven Aerostar, Google, Facebook, and Augur RosAeroSystems.
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Table of Contents

1.1    Market Drivers
1.1.1    Competitive Advantage Over Conventional Satellite and Terrestrial-based Systems
1.1.2    Growing Need of HAAPS Technology in Military End-User
1.2    Market Challenges
1.2.1    Design Challenges with HAAPS
1.2.2    Power Limitations on HAAPS
1.3    Market Opportunities
1.3.1    Increasing Need of HAAPS Technology in Several Applications
1.3.2    Rising Opportunities for Developing Countries
1.3.3    Growing Requirement for In-Flight Mobile Connectivity
1.3.4    Increasing Demand for Solar-Powered Technologies

2.1    Competitive Landscape
2.2    Key Strategies and Developments
2.2.1    Partnership, Contracts, and Joint Venture
2.2.2    Product Launches
2.2.3    Acquisition and Funding
2.2.4    Other Developments
2.3    Market Players Ranking

3.1    Aerial Platforms and Related Technologies
3.2    HAAPS Architecture
3.2.1    Technology Comparison: HAAPS Vs Satellite Systems Vs Terrestrial System
3.3    HAAPS and Ongoing Projects
3.4    Value Chain Analysis
3.5    Industry Attractiveness
3.5.1    Threat of New Entrants
3.5.2    Threat of Substitutes
3.5.3    Bargaining power of Buyers
3.5.4    Bargaining Power of Suppliers
3.5.5    Intensity of Competitive Rivalry

4.1    Assumptions and Limitations
4.2    Market Overview

5.1    Market Overview
5.2    Unmanned Aerial Vehicles
5.3    Aerostats
5.3.1    Airship
5.3.2    Balloon
5.3.3    Tethered Aerostats
5.4    Tethered Drones

6.1    Market Overview
6.2    Communication Intelligence
6.3    Surveillance
6.4    Electronic Intelligence
6.5    Electro-Optical/Infrared (EO/IR) Sensor
6.6    Navigation
6.7    Others

7.1    Market Overview
7.2    Commercial
7.3    Government and Defense

8.1    Market Overview
8.2    North America
8.2.1    North America HAAPS Market Size by Platform
8.2.2    North America HAAPS Market Size by Country
8.2.2.1    The U.S.
8.2.2.2    Canada
8.3    Europe
8.3.1    Europe HAAPS Market Size by Platform
8.3.2    Europe HAAPS Market Size by Country
8.3.2.1    The U.K.
8.3.2.2    Germany
8.3.2.3    Russia
8.3.2.4    France
8.4    Asia Pacific
8.4.1    Asia Pacific HAAPS Market Size by Platform
8.4.2    Asia Pacific HAAPS Market Size by Country
8.4.2.1    China
8.4.2.2    India
8.4.2.3    Australia
8.5    Rest-of-the-World
8.5.1    Rest-of-the-World HAAPS Market Size by Platform
8.5.2    Latin America
8.5.3    Middle East and Africa

9.1    AeroVironment, Inc.
9.1.1    Company Overview
9.1.2    Product Offerings
9.1.3    Financials
9.1.3.1    Overall Financials
9.1.3.2    Financial Summary
9.1.4    SWOT Analysis
9.2    Airbus Group SE
9.2.1    Company Overview
9.2.2    Product Offerings
9.2.3    Financials
9.2.3.1    Overall Financials
9.2.3.2    Segment Revenue Mix
9.2.3.3    Geographic Revenue Mix
9.2.3.4    Financial Summary
9.2.4    SWOT Analysis
9.3    AlphaLink
9.3.1    Company Overview
9.3.2    Corporate Summary
9.3.3    SWOT Analysis
9.4    Augur RosAeroSystems
9.4.1    Company Overview
9.4.2    Product Offerings
9.4.3    Corporate Summary
9.4.4    SWOT Analysis
9.5    Bye Aerospace
9.5.1    Company Overview
9.5.2    Product Offerings
9.5.3    Corporate Summary
9.5.4    SWOT Analysis
9.6    CyPhy Works, Inc.
9.6.1    Company Overview
9.6.2    Product Offerings
9.6.3    Corporate Summary
9.6.4    SWOT Analysis
9.7    Elistair
9.7.1    Company Overview
9.7.2    Product Offerings
9.7.3    Corporate Summary
9.7.4    SWOT Analysis
9.8    Hoverfly Technologies, Inc.
9.8.1    Company Overview
9.8.2    Product Offerings
9.8.3    Corporate Summary
9.8.4    SWOT Analysis
9.9    Lockheed Martin Corporation
9.9.1    Company Overview
9.9.2    Product Offerings
9.9.3    Financials
9.9.3.1    Financial Summary
9.9.4    SWOT Analysis
9.1    Raven Industries, Inc.
9.10.1    Company Overview
9.10.2    Product Offerings
9.10.3    Financials
9.10.3.1    Overall Financials
9.10.3.2    Segment Revenue Mix
9.10.3.3    Geographic Revenue Mix
9.10.3.4    Financial Summary
9.10.4    SWOT Analysis
9.11    Thales Group
9.11.1    Company Overview
9.11.2    Product Offerings
9.11.3    Financials
9.11.3.1    Overall Financials
9.11.3.2    Segment Revenue Mix
9.11.3.3    Geographic Revenue Mix
9.11.3.4    Financial Summary
9.11.4    SWOT Analysis
9.12    TCOM, L.P.
9.12.1    Company Overview
9.12.2    Product Offerings
9.12.3    Corporate Summary
9.12.4    SWOT Analysis

10.1    Scope of the Report
10.2    HAAPS Market Research Methodology

11.1    Related Reports

Table 1    Market Snapshot: Global HAAPS Market, 2017 and 2028
Table 1.1    Comparative Analysis of HAAPS, Terrestrial, and Satellite-based Systems
Table 2.1    Key Partnerships, Contracts, and Joint Venture
Table 2.2    Key Product Launches and Developments
Table 2.3    Acquisitions and Funding
Table 2.4    Other Developments
Table 3.1    Comparison Between Different Types of Aerial Platforms
Table 3.2    Comparison of Wireless Technologies
Table 3.3    Ongoing HAAPS projects
Table 3.4    Analyzing Factors of Threat from New Entrants
Table 3.5    Analyzing Threat from Substitute
Table 3.6    Analyzing Bargaining Power of Buyers
Table 3.7    Analyzing Bargaining Power of Suppliers
Table 3.8    Analyzing Intensity of Competitive Rivalry
Table 5.1    Global HAAPS Market by Platform 2017-2028
Table 5.2    Key Players and their Products
Table 6.1    Global HAAPS Market by Payload, 2017-2028
Table 6.2    U.S. DoD CET&I Budget Request, 2017
Table 7.1    Global HAAPS Market by End-User 2017-2028
Table 8.1    Global HAAPS Market Size by Region, 2017-2028

Figure 1    Global Defense Budget, 2004-2016
Figure 2    Advantages of HAAPS
Figure 3    Global HAAPS Market Snapshot 2017, 2018, and 2028
Figure 4    Global HAAPS Market Share by Platform, 2017 and 2028
Figure 5    Global HAAPS Market Size by End-Users, 2017 and 2028
Figure 6    Global HAAPS Market Share by Payload, 2017 and 2028
Figure 7    HAAPS Market Size by Region, 2017
Figure 8    Global HAAPS Market Size by Country, 2017
Figure 1.1    Market Dynamics Snapshot
Figure 1.2    Impact Analysis on Market Drivers
Figure 1.3    Impact Analysis on Market Restraints
Figure 1.4    Potential Applications for HAAPS Technology
Figure 1.5    Global Air Passenger Traffic, 2009-2016
Figure 2.1    Key Strategies Adopted by Market Players
Figure 2.2    Percentage Share of Strategies Adopted by the Market Players, January 2015 - March 2018
Figure 2.3    Market Players Ranking
Figure 3.1    Classification of Different Aerial Technologies
Figure 3.2    Basic Architecture of HAAPS
Figure 3.3    Subsystems of the Stratospheric Segment
Figure 3.4    Cellular System of a Ground Segment
Figure 3.5    Value Chain Analysis
Figure 3.6    Porter’s Five Forces Analysis
Figure 4.1    Global HAAPS Market Size, 2017-2028
Figure 5.1    Classification of Global HAAPS Market by Platform
Figure 5.2    Global HAAPS Market by Platform, 2017 and 2028
Figure 5.3    Global HAAPS Market Size for Unmanned Aerial Vehicle Platform, 2017 - 2028
Figure 5.4    Global HAAPS Market Size for Airship Platform, 2017 - 2028
Figure 5.5    Global HAAPS Market Size for Balloon Platform, 2017 - 2028
Figure 5.6    Global HAAPS Market Size for Tethered Aerostats, 2017 - 2028
Figure 5.7    Global HAAPS Market Size for Tethered Drones, 2017 - 2028
Figure 5.8    Tethered Drones Market Opportunity, 2017 - 2028
Figure 6.1    Classification of Global HAAPS Market by Payload
Figure 6.2    Global HAAPS Market by Payload, 2017 and 2028
Figure 6.3    Global HAAPS Market Size for Communication Intelligence Payload, 2017 - 2028
Figure 6.4    Global HAAPS Market Size for Surveillance Payload, 2017 - 2028
Figure 6.5    Global HAAPS Market Size for Electronic Intelligence Payload, 2017 - 2028
Figure 6.6    Global HAAPS Market Size for EO/IR Payload, 2017 - 2028
Figure 6.7    Global HAAPS Market Size for Navigation Payload, 2017 - 2028
Figure 6.8    Global HAAPS Market Size for Other Payload, 2017 - 2028
Figure 7.1    Classification of Global HAAPS Market by End-User
Figure 7.2    Global HAAPS Market by End-User, 2017 and 2028
Figure 7.3    Global HAAPS Market Size for Commercial End-User, 2017 - 2028
Figure 7.4    Global HAAPS Market Size for Government and Defense End-User, 2017 - 2028
Figure 8.1    Classification of Global HAAPS Market by Region
Figure 8.2    Geographic Distribution of Global HAAPS Market, 2017 and 2028
Figure 8.3    North America HAAPS Market Size by Country, 2017-2028
Figure 8.4    North American HAAPS Market Size by Platform, 2017-2028
Figure 8.5    HAAPS Market in the U.S., 2017-2028
Figure 8.6    HAAPS Market in Canada, 2017-2028
Figure 8.7    Europe HAAPS Market Size by Country, 2017-2028
Figure 8.8    Europe HAAPS Market Size by Platform, 2017-2028
Figure 8.9    HAAPS Market in the U.K., 2017-2028
Figure 8.10    HAAPS Market in Germany, 2017-2028
Figure 8.11    HAAPS Market in Russia, 2017-2028
Figure 8.12    HAAPS Market in France, 2017-2028
Figure 8.13    Asia Pacific HAAPS Market by Country, 2017-2028
Figure 8.14    Asia Pacific HAAPS Market Size by Platform, 2017-2028
Figure 8.15    HAAPS Market in China, 2017-2028
Figure 8.16    HAAPS Market in India, 2017-2028
Figure 8.17    HAAPS Market in Australia, 2017-2028
Figure 8.18    HAAPS Market in Rest-of-the-World, 2017-2028
Figure 8.19    Rest-of-the-World HAAPS Market by Platform, 2017-2028
Figure 8.20    HAAPS Market in Latin America, 2017-2028
Figure 8.21    HAAPS Market in Middle East and Africa, 2017-2028
Figure 9.1    Share of Key Company Profiles
Figure 9.2    AeroVironment, Inc. –Product Offerings
Figure 9.3    AeroVironment Inc.– Overall Financials, 2015-2017
Figure 9.4    AeroVironment Inc.– Business Segment Revenue Mix, 2015-2017
Figure 9.5    AeroVironment Inc., – Geographic Revenue Mix, 2015-2017
Figure 9.6    AeroVironment Inc.– SWOT Analysis
Figure 9.7    Airbus Group SE – Product Offerings
Figure 9.8    Airbus Group SE– Overall Financials, 2014-2016
Figure 9.9    Airbus Group SE – Business Segment Revenue Mix, 2014-2016
Figure 9.10    Airbus Group SE – Geographic Revenue Mix, 2014-2016
Figure 9.11    SWOT Analysis -- Airbus Group SE
Figure 9.12    SWOT Analysis –AlphaLink
Figure 9.13    Augur RosAeroSystems – Product Offerings
Figure 9.14    SWOT Analysis – Augur RosAeroSystems
Figure 9.15    Bye Aerospace – Product Offerings
Figure 9.16    SWOT Analysis – Bye Aerospace
Figure 9.17    CyPhy Works, Inc. – Product Offerings
Figure 9.18    SWOT Analysis – CyPhy Works, Inc.
Figure 9.19    Elistair – Product Offerings
Figure 9.20    SWOT Analysis – Elistair
Figure 9.21    Hoverfly Technologies, Inc. – Product Offerings
Figure 9.22    SWOT Analysis – Hoverfly Technologies, Inc.
Figure 9.23    Lockheed Martin Corporation: Product Offerings
Figure 9.24    Lockheed Martin Corporation – Overall Financials, 2015-2017
Figure 9.25    Lockheed Martin Corporation – Revenue by Business Segment, 2015-2017
Figure 9.26    Lockheed Martin Corporation – Share in Overall Revenue by Region, 2015-2017
Figure 9.27    Lockheed Martin Corporation – SWOT Analysis
Figure 9.28    Raven Industries, Inc. – Product Offerings
Figure 9.29    Raven Industries, Inc. – Overall Financials, 2015-2017
Figure 9.30    Raven Industries, Inc. – Business Segment Revenue Mix, 2015-2017
Figure 9.31    Raven Industries, Inc. – Geographic Revenue Mix, 2015-2017
Figure 9.32    SWOT Analysis – Raven Industries, Inc.
Figure 9.33    Thales Group – Product Offerings
Figure 9.34    Thales Group – Overall Financials, 2015-2017
Figure 9.35    Thales Group – Business Segment Revenue Mix, 2015-2017
Figure 9.36    Thales Group – Geographic Revenue Mix, 2015-2017
Figure 9.37    SWOT Analysis – Thales Group
Figure 9.38    TCOM, L.P. – Product Offerings
Figure 9.39    SWOT Analysis – TCOM, L.P.
Figure 10.1    Global HAAPS Market Scope
Figure 10.2    HAAPS Market Research Methodology
Figure 10.3    Secondary Data Sources
Figure 10.4    Top-Down and Bottom-up Approach
Figure 10.5    HAAPS Market: Influencing Factors
Figure 10.6    Assumptions and Limitations

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Focus on Platform (Unmanned Aerial Vehicles, Airships, Balloons, Tethered Aerostats and Tethered Drones), Payload, and End-Users

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