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North America High-altitude Aeronautics Platform Station (Haaps) Market Forecast 2019-2027

North America High-altitude Aeronautics Platform Station (Haaps) Market Forecast 2019-2027

KEY FINDINGS

The North American market for HAAPS is expected to have a CAGR of 5.07% during the forecast period of 2019-2027. The North American HAAPS market will continue to escalate in terms of revenue and is expected to reach $ xx million by the end of 2027.

MARKET INSIGHTS

The North American region has the largest market for HAAPS in the world. The U.S. accounts for a major share in the HAAPS market. This dominance is due to the increased interests in research and development activities, particularly in high-altitude platforms. These platforms are of different types and are used by both commercial and military end users. Furthermore, the involvement of the U.S. in the war-torn Middle East region has also supplemented the growth in demand of HAAPS, as they are very useful in communication and provide mobile command systems to operate in remote and hostile areas.

COMPETITIVE INSIGHTS

Leading market players in the European HAAPS market include Lockheed Martin Corporation, Raven Industries Inc., Tcom L.P., Alphalink, Hoverfly Technologies Inc, Bye Aerospace, Aerovironment Inc, Cyphy Works Inc, Augur Rosaerosystems, Thales Group, Airbus Group Se and Elistair.


1. Research Scope
1.1. Study Goals
1.2. Scope Of The Market Study
1.3. Who Will Find This Report Useful?
1.4. Study And Forecasting Years
2. Research Methodology
2.1. Sources Of Data
2.1.1. Secondary Data
2.1.2. Primary Data
2.2. Top-down Approach
2.3. Bottom-up Approach
2.4. Data Triangulation
3. Executive Summary
3.1. Market Summary
3.2. Key Findings
3.2.1. North America Captured The Largest Chunk Of The Overall Market
3.2.2. Growing Use Of Advanced & Lightweight Materials
3.2.3. Evolving Solar Technologies In Aerospace Industry
3.2.4. Growing Number Of New Haaps Projects
4. Market Dynamics
4.1. High-altitude Aeronautics Platform Station (Haaps)
4.1.1. Introduction
4.1.2. Haaps Architecture
4.1.3. Haaps Vs Satellite Systems Vs Terrestrial System
4.2. Market Scope & Definition
4.3. Market Drivers
4.3.1. Benefits Offered By Haaps Over Conventional Satellite & Terrestrial-based Systems
4.3.2. Growing Need For Advanced Intelligence & Surveillance In Military
4.3.3. Increasing Demand Of Haaps Technology In Numerous Applications
4.3.4. Advancement In Solar-powered Fuel Cells
4.3.5. Rising Military Expenditure Across World
4.4. Market Restraints
4.4.1. Complexities In Data Management
4.4.2. Issues Related To Spectrum Management
4.4.3. Regulatory Policies & Procedural Issues
4.5. Market Opportunities
4.5.1. Growing Need For Mobile Connectivity In Commercial Aircrafts
4.5.2. Increasing Demand For Solar-powered Technologies
4.6. Market Challenges
4.6.1. Technical Difficulties In Designing Haaps
4.6.2. Power Limitations On Haaps
5. Market By Platform
5.1. Unmanned Aerial Vehicle
5.2. Aerostat
5.2.1. Airship
5.2.2. Balloon
5.2.3. Tethered Aerostat
5.3. Tethered Drone
6. Market By Payload
6.1. Communication Intelligence (Comint)
6.2. Surveillance
6.3. Electronic Intelligence
6.4. Eo/Ir Sensor
6.5. Navigation
6.6. Others
7. Market By End User
7.1. Commercial
7.2. Government & Defense
8. Key Analytics
8.1. Porters Five Force Model
8.1.1. Threat Of New Entrants
8.1.2. Threat Of Substitute
8.1.3. Bargaining Power Of Suppliers
8.1.4. Bargaining Power Of Buyers
8.1.5. Threat Of Competitive Rivalry
8.2. Opportunity Matrix
8.3. Vendor Landscape
8.4. Value Chain Analysis
8.4.1. Research And Development
8.4.2. Subsystem And Component Sourcing
8.4.3. Manufacturing And Assembly
8.4.4. End User
9. Geographical Analysis - North America
9.1. United States
9.2. Canada
10. Competitive Landscape
10.1. Market Share Analysis
10.2. Corporate Strategies
10.2.1. Partnership, Contracts, & Joint Venture
10.2.2. Product Launches
10.2.3. Acquisition & Funding
10.2.4. Other Key Strategies
10.3. Company Profiles
10.3.1. Aerovironment, Inc.
10.3.2. Airbus Group Se
10.3.3. Alphalink
10.3.4. Augur Rosaerosystems
10.3.5. Bye Aerospace
10.3.6. Cyphy Works, Inc.
10.3.7. Elistair
10.3.8. Hoverfly Technologies, Inc
10.3.9. Lockheed Martin Corporation
10.3.10. Raven Industries, Inc.
10.3.11. Tcom, L.P.
10.3.12. Thales Group
List Of Tables
Table 1: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Country, 2019-2027 (In $ Million)
Table 2: Technical Comparison Between Solar Impulse 2 & Traditional Aircraft
Table 3: Major Haaps Projects That Are Currently Under-development (As Of March 2018)
Table 4: Comparison Between Different Types Of Aerial Platforms
Table 5: Technology Comparison: Haaps Vs Satellite Systems Vs Terrestrial System
Table 6: Comparative Analysis Of Haaps, Terrestrial, And Satellite-based Systems
Table 7: Key Countries With Leading Defense Budget In 2016 ($ Billion)
Table 8: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Platform, 2019-2027, (In $ Million)
Table 9: Key Players In North America Haaps Market For Uav Platforms
Table 10: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Aerostat, 2019-2027 (In $ Million)
Table 11: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Payload, 2019-2027, (In $ Million)
Table 12: Communications, Electronics, Telecommunications And Intelligence (Cet&I) Budget Request By The U.S. Department Of Defense (Dod), 2017
Table 13: North America High-altitude Aeronautics Platform Station (Haaps) Market, By End User, 2019-2027, (In $ Million)
Table 14: Opportunity Matrix
Table 15: Vendor Landscape
Table 16: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Country, 2019-2027 (In $ Million)
Table 17: List Of Partnership, Contracts, & Joint Venture
Table 18: List Of Product Launches
Table 19: List Of Acquisition & Funding
Table 20: List Of Other Key Strategies
List Of Figures
Figure 1: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Platform Type, 2018 & 2027 (In %)
Figure 2: North America High-altitude Aeronautics Platform Station (Haaps) Market, 2019-2027 (In $ Million)
Figure 3: Broad Classification Of Aircraft On The Basis Of Technology
Figure 4: Basic Architecture Of Haaps
Figure 5: Subsystems Of The Stratospheric Segment
Figure 6: Cellular System Of A Ground Segment
Figure 7: Potential Applications Of Haaps
Figure 8: Fuel Cell Technology Of A Solar-powered High-altitude Fixed-wing Platform
Figure 9: World Defense Budget, 2007-2016 (In $ Billion)
Figure 10: Air Passenger Traffic Across The World, 2010-2016 (In Billion)
Figure 11: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Unmanned Aerial Vehicle, 2019-2027 (In $ Million)
Figure 12: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Aerostat, 2019-2027 (In $ Million)
Figure 13: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Airship, 2019-2027 (In $ Million)
Figure 14: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Balloon, 2019-2027 (In $ Million)
Figure 15: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Tethered Aerostat, 2019-2027 (In $ Million)
Figure 16: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Tethered Drone, 2019-2027 (In $ Million)
Figure 17: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Communication Intelligence (Comint), 2019-2027 (In $ Million)
Figure 18: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Surveillance, 2019-2027 (In $ Million)
Figure 19: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Electronic Intelligence, 2019-2027 (In $ Million)
Figure 20: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Eo/Ir Sensor, 2019-2027 (In $ Million)
Figure 21: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Navigation, 2019-2027 (In $ Million)
Figure 22: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Others, 2019-2027 (In $ Million)
Figure 23: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Commercial, 2019-2027 (In $ Million)
Figure 24: North America High-altitude Aeronautics Platform Station (Haaps) Market, By Government & Defense, 2019-2027 (In $ Million)
Figure 25: Porter’s Five Force Analysis
Figure 26: Value Chain Analysis
Figure 27: North America High-altitude Aeronautics Platform Station (Haaps) Market, Regional Outlook, 2018 & 2027 (In %)
Figure 28: United States High-altitude Aeronautics Platform Station (Haaps) Market, 2019-2027 (In $ Million)
Figure 29: Canada High-altitude Aeronautics Platform Station (Haaps) Market, 2019-2027 (In $ Million)
Figure 30: Market Share Analysis Of Key Players In 2018 (Ranking)
Figure 31: Percentage Share Of Key Strategies Adopted By The Market Players, 2015 – 2018 (Till March)

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