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CO21058399 |
Pages: 310 |
Sep 2022 |
Global Urban Air Mobility Market Analysis
It might no longer a dream to see vehicles flying over our cities. The technology has already advanced, and the era of urban air mobility is now upon us. An urban transportation system known as urban air mobility transports passengers and cargo by air using on-demand, highly automated vehicles. Along with manufacturers, it also covers the management and operation of air traffic. Urban air mobility pledges to provide priceless transportation services, particularly in congested urban regions. Urban air mobility now uses eVTOL, which enables electrification and autonomy, as opposed to an internal combustion engine, which is prone to noise and environmental pollution. Urban air mobility are becoming extremely popular as it is a clean and efficient source for urban transportation. These factors are anticipated to boost the urban air mobility market demand in the upcoming years.
Though, the significant investment in infrastructure and research & development can be a hindrance to the global market for urban air mobility. Additionally, it is projected that, societal concerns about the adoption of urban air mobility aircraft in terms of safety will have a detrimental effect on the urban air mobility market share.
The recent developments in urban air mobility technology have shown that the transportation sector is going through a spectacular phase, providing individuals with smart mobility options. When there is a natural disaster, poor road conditions, heavy traffic, or both, air vehicles can provide medical services. The urban air mobility vehicle can be used for taxi services, emergency services, cargo supply and many more. High-priority medical or food supplies can be provided by urban air mobility to the needy population when people experience disastrous scenarios as a result of natural calamities. According to regional analysis, the Asia-Pacific urban air mobility market share accounted for $1,028.3 million in 2021 and is predicted to grow with a double-digit growth in the projected timeframe.
In the aviation sector, urban air mobility refers to automated, on-demand passenger or freight air transportation services that are frequently operated without a pilot. UAM makes advantage of three-dimensional mobility to better successfully address the needs of our communities. In urban and suburban areas that have expanded as a result of traffic congestion, urban air mobility, or UAM, is the use of small, autonomous aircraft to transport people or cargo at lower altitudes. It often refers to both current and emerging technologies, such as aircraft with vertical takeoff and landing (VTOL) and electrical propulsion.
COVID-19 Impact on the urban air mobility market has brought about several concerns that have resulted in significant economic losses as many enterprises around the world came to a standstill. Due to supply chain disruptions, the closure of manufacturing facilities, and a global economic slump, this has eventually reduced demand for urban air transportation. Additionally, important raw material suppliers including Vietnam, Japan, and China were subject to import-export restrictions. For instance, some nations mandated the importation of electrical components needed for the manufacture of urban air mobility from China. Additionally, the automotive industry was most negatively impacted in terms of sales and the acquisition of new projects, which greatly decreased the market for urban air mobility vehicles. For example, a lack of semiconductor chips during the pandemic has affected the production of urban air mobility vehicles. Similarly, due to the economic slowdown, many flows of new investment in urban air mobility technology reduce significantly during the pandemic. However, in February 2020, Ehang holdings limited which is the world’s leading urban air mobility manufacturer took a new initiative to implement urban air mobility vehicles for emergency transport during the pandemic in China. These initiatives are predicted to drive the urban air mobility market size during the analysis timeframe.
Worldwide, the urban population is expanding quickly. As a result, there are more and more on-road passenger vehicles in urban areas each year, which leads to an increase in traffic congestion issues. The length of time it took commuters to go by road dramatically rose, especially during specific peak hours. Most countries' current road networks are unable to handle peak-hour traffic without making commuters wait in lines. Citizens' time is being wasted, and governments are being put to the test. Growing numbers of fossil fuel-burning on-road passenger vehicles significantly worsen environmental pollution.
Governments and technology companies have begun to consider UAM as a feasible solution for passenger and cargo transport because traffic congestion and urban road mobility pose such a significant barrier. There may be significant time savings because the UAM is a reliable and efficient air transportation system that operates passenger-carrying air taxis above populated areas. Additionally, the majority of the air taxis employed by the UAM are fuel cell or electric powered. As a result, they contribute to lowering air pollution. In this context, a lot of businesses are making major investments in this area, which is anticipated to accelerate technological development once UAM systems start to be used commercially.
To know more about global urban air mobility market drivers, get in touch with our analysts here.
Air taxis are a highly promising market of the future owing to that the competition for the commercial invasion of airspace is now at full speed. There are still a few infrastructural and technological hurdles to overcome before the potential of urban air mobility can be fully developed. Many regulatory issues, for instance certification, are still unresolved as well. It is projected that throughout the societal concerns about the adoption of urban air mobility aircraft in terms of safety will have a detrimental effect on the market for urban air mobility. Factors such as rising security concerns, high initial investment, and limited government support in terms of the regulatory framework will limit the urban air mobility market during the forecast period.
The rapidly expanding need for air mobility in healthcare institutions is expected to fuel the growth of the urban air mobility industry. Besides, it is extremely difficult for medical transportation to arrive on time due to the increase in traffic congestion. For instance, around 1.2 million motor vehicle fatalities are reported annually around the world, and 94 percent of car accidents include driver error. Above factors showcase the demand for urban air mobility in healthcare sector. The urban air mobility vehicles can be used for healthcare application to provide an immediate medical during any casualty due to accident or during any natural casualty. These factors are anticipated to increase the demand for urban air mobility market opportunity during the forecasted time period.
To know more about global urban air mobility market opportunities, get in touch with our analysts here.
Based on platform, the market has been divided into air taxis, air shuttles and air metro, personal air vehicles, cargo air vehicles, air ambulance & medical emergency vehicles, and last-mile delivery vehicles. Among these, the air taxis sub-segment accounted for the highest market share in 2021 whereas the last-mile delivery vehicles sub-segment is estimated to show the fastest growth during the forecast period.
Source: Research Dive Analysis
The air taxis sub-type is anticipated to have a dominant market share in 2021. Urban air mobility could develop into a well-liked kind of transportation and a competitive substitute for conventional taxis over the next decade. We now have a new way to travel to work and transfer goods thanks to urban air mobility, which uses electric vertical takeoff and landing Aircrafts. Like the helicopter, there is a new type of aero plane out there. Involving commercial aircraft and remotely piloted drones designed to transport heavy individuals and cargoes. Urban air mobility will start opening up new option for daily urban travel in the form of air taxis. For instance, the Indian urban air mobility startup company Vinata Aeromobility is planning to launch new hybrid air taxi service in India the vehicle is capable to carry the load up to 250kg and can travel up to 100 kilometers.
The last-mile delivery vehicles sub-type is anticipated to show the fastest growth in 2021. Innovations in urban air mobility, such as new aircraft designs, services, and models, are made possible by a variety of technological developments and industry investments in automation, electrification, vertical take-off and landing aircraft. The employment of aerial delivery drones to complete the final mile delivery of the goods is a result of the growing need to increase delivery efficiency and reduce delivery time. The global market for last mile delivery vehicles is also growing as a result of the development of superior urban air mobility vehicles. Rapid package delivery from regional distribution centers to a receiving centers is known as last-mile delivery. For instance, Hubvery the logistic startup company, is going to launch drone based last-mile delivery service in Canada.
Based on range, the segment has been categorized into intracity and intercity. Among these, the intercity sub-segment accounted for highest revenue share in 2021.
Source: Research Dive Analysis
The intercity sub-segment is anticipated to have a dominant market share in 2021. The intercity segment of urban air mobility sector is anticipated to see massive growth due to advancement in technology in urban air mobility market. The new startup companies coming in urban air mobility sector are coming with up new ideas, design, technology to improve the load carrying capacity and range. The modern urban air mobility vehicles are capable to carry 4 to 5 persons and can carry the load of around 200 to 300 kg of loads. For instance, on July 2021, the Blade India, has launched the intercity services in Karnataka region of India. These factors are anticipated to boost the growth of intercity sub-segment during the analysis timeframe.
Based on platform operations, the market has been categorized into piloted and autonomous. Among these, the autonomous sub-segment accounted for highest revenue share in 2021.
Source: Research Dive Analysis
The autonomous sub-segment is anticipated to have a fastest growing market share in 2021. To realize the urban air mobility goal, it will be essential to increase vehicle automation and autonomous vehicle operations. An economically feasible transportation system that can support the significant anticipated demand will require autonomy. While autonomous systems might be useful for many different aspects of a developed urban air mobility ecosystem. Thousands of flights above a major city are expected to take place simultaneously under a mature system. Vehicles may need response times and degrees of decision-making and control that are beyond the capability of even highly trained human operators because they will operate in practically all weather situations and in close proximity to people, property, and other vehicles. These factors are anticipated to increase the demand for autonomous urban air mobility market trend in forecasted time frame.
Based on platform architecture, the segment has been categorized into the rotary wing and fixed-wing hybrid. Among these, the rotary wing sub-segment accounted for highest revenue share in 2021.
Source: Research Dive Analysis
The rotary wing sub-segment is anticipated to have a dominant market share in 2021. The rotary wing type of urban air mobility vehicle is meant to represent a class of recently designed VTOL aircraft for manned and unmanned operation, utilizing distributed electric propulsion. When practicable, the rotary wing vehicle is designed to fly like a fixed-wing aircraft and only use its VTOL lift rotors during takeoff and landing. The lift rotors are different from those used for propulsion, and they are not used during cruising flight, which is the greatest distinguishing feature of these designs. The rotors are designed to produce small aerodynamic forces and moments during cruising because of this designed it is very popular among the new urban air mobility aircraft. These factors are expected to increase the rotary wing urban air mobility market growth.
The urban air mobility market analysis was investigated across North America, Europe, Asia-Pacific, and LAMEA.
Source: Research Dive Analysis
The Asia-Pacific urban air mobility market accounted $1,028.3 million in 2021 and is projected to grow with a CAGR of 30.0%. The demand for urban air mobility in the Asia-Pacific region is driven by its increasing population in the region and due to this increase in rapid urbanization and increase in traffic conjunction in various cities in this region. Due to this demand for fast transportation system is increasing in this region. In addition, rising R&D spending and a growing focus on improving air mobility are anticipated to fuel the growth of the Asia-Pacific urban air mobility market over the ensuing years. For instance, the government of India has allowed production linked incentive scheme for air mobility products, under this scheme the government will provide 20 percent incentive to manufacture companies. Additionally, companies in the Asia-Pacific region are concentrating on product development and technical progress, which might accelerate urban air mobility market growth overall and open up attractive market prospects for the region's urban air mobility market over the course of the projected year.
Investment and agreement are common strategies followed by major market players. For instance, in June 2021, Hyundai motors, the leading automobile company, has entered in partnership with ANRA technologies to develop advance urban air mobility traffic management environment system.
Source: Research Dive Analysis
Some of the leading urban air mobility market players are Ehang, Lilium Gmbh, Airbus, Wisk Aero LLC., Bell Textron, Volocopter GmbH, Workhorse Group Inc., Joby Aviation., Kitty Hawk, and Archer Aviation.
Aspect | Particulars |
Historical Market Estimations | 2020 |
Base Year for Market Estimation | 2021 |
Forecast Timeline for Market Projection | 2022-2031 |
Geographical Scope | North America, Europe, Asia-Pacific, LAMEA |
Segmentation by Technology |
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Segmentation by Platform Operation |
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Segmentation by Range |
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Segmentation by Platform Architecture |
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Key Companies Profiled |
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1.Research Methodology
1.1.Desk Research
1.2.Real time insights and validation
1.3.Forecast model
1.4.Assumptions and forecast parameters
1.5.Market size estimation
1.5.1.Top-down approach
1.5.2.Bottom-up approach
2.Report Scope
2.1.Market definition
2.2.Key objectives of the study
2.3.Report overview
2.4.Market segmentation
2.5.Overview of the impact of COVID-19 on Global urban air mobility market
3.Executive Summary
4.Market Overview
4.1.Introduction
4.2.Growth impact forces
4.2.1.Drivers
4.2.2.Restraints
4.2.3.Opportunities
4.3.Market value chain analysis
4.3.1.List of raw material suppliers
4.3.2.List of manufacturers
4.3.3.List of distributors
4.4.Innovation & sustainability matrices
4.4.1.Technology matrix
4.4.2.Regulatory matrix
4.5.Porter’s five forces analysis
4.5.1.Bargaining power of suppliers
4.5.2.Bargaining power of consumers
4.5.3.Threat of substitutes
4.5.4.Threat of new entrants
4.5.5.Competitive rivalry intensity
4.6.PESTLE analysis
4.6.1.Political
4.6.2.Economical
4.6.3.Social
4.6.4.Technological
4.6.5.Environmental
4.7.Impact of COVID-19 on urban air mobility market
4.7.1.Pre-covid market scenario
4.7.2.Post-covid market scenario
5.Urban Air Mobility Market Analysis, by Platform
5.1.Overview
5.2.Air Taxis
5.2.1.Definition, key trends, growth factors, and opportunities
5.2.2.Market size analysis, by region, 2021-2031
5.2.3.Market share analysis, by country, 2021-2031
5.3.Air Shuttles & Air Metro
5.3.1.Definition, key trends, growth factors, and opportunities
5.3.2.Market size analysis, by region, 2021-2031
5.3.3.Market share analysis, by country, 2021-2031
5.4.Personal Air Vehicles
5.4.1.Definition, key trends, growth factors, and opportunities
5.4.2.Market size analysis, by region, 2021-2031
5.4.3.Market share analysis, by country, 2021-2031
5.5.Cargo Air Vehicles
5.5.1.Definition, key trends, growth factors, and opportunities
5.5.2.Market size analysis, by region, 2021-2031
5.5.3.Market share analysis, by country, 2021-2031
5.6.Air Ambulance & Medical Emergency Vehicles
5.6.1.Definition, key trends, growth factors, and opportunities
5.6.2.Market size analysis, by region, 2021-2031
5.6.3.Market share analysis, by country, 2021-2031
5.7.Last-mile Delivery Vehicles
5.7.1.Definition, key trends, growth factors, and opportunities
5.7.2.Market size analysis, by region, 2021-2031
5.7.3.Market share analysis, by country, 2021-2031
5.8.Research Dive Exclusive Insights
5.8.1.Market attractiveness
5.8.2.Competition heatmap
6.Urban Air Mobility Market Analysis, by Platform Operations
6.1.Overview
6.2.Piloted
6.2.1.Definition, key trends, growth factors, and opportunities
6.2.2.Market size analysis, by region, 2021-2031
6.2.3.Market share analysis, by country, 2021-2031
6.3.Autonomous
6.3.1.Definition, key trends, growth factors, and opportunities
6.3.2.Market size analysis, by region, 2021-2031
6.3.3.Market share analysis, by country, 2021-2031
6.4.Research Dive Exclusive Insights
6.4.1.Market attractiveness
6.4.2.Competition heatmap
7.Urban Air Mobility Market Analysis, by Range
7.1.Overview
7.2.Intercity
7.2.1.Definition, key trends, growth factors, and opportunities
7.2.2.Market size analysis, by region, 2021-2031
7.2.3.Market share analysis, by country, 2021-2031
7.3.Intracity
7.3.1.Definition, key trends, growth factors, and opportunities
7.3.2.Market size analysis, by region, 2021-2031
7.3.3.Market share analysis, by country, 2021-2031
7.4.Research Dive Exclusive Insights
7.4.1.Market attractiveness
7.4.2.Competition heatmap
8.Urban Air Mobility Market Analysis, by Platform Architecture
8.1.Overview
8.2.Rotary Wing
8.2.1.Definition, key trends, growth factors, and opportunities
8.2.2.Market size analysis, by region, 2021-2031
8.2.3.Market share analysis, by country, 2021-2031
8.3.Fixed-wing Hybrid
8.3.1.Definition, key trends, growth factors, and opportunities
8.3.2.Market size analysis, by region, 2021-2031
8.3.3.Market share analysis, by country, 2021-2031
8.4.Research Dive Exclusive Insights
8.4.1.Market attractiveness
8.4.2.Competition heatmap
9.Urban Air Mobility Market Analysis, by Region
9.1.North America
9.1.1.U.S.
9.1.1.1.Market size analysis, by Platform, 2021-2031
9.1.1.2.Market size analysis, by Platform Operations, 2021-2031
9.1.1.3.Market size analysis, by Range, 2021-2031
9.1.1.4.Market size analysis, by Platform Architecture, 2021-2031
9.1.2.Canada
9.1.2.1.Market size analysis, by Platform, 2021-2031
9.1.2.2.Market size analysis, by Platform Operations, 2021-2031
9.1.2.3.Market size analysis, by Range, 2021-2031
9.1.2.4.Market size analysis, by Platform Architecture, 2021-2031
9.1.3.Mexico
9.1.3.1.Market size analysis, by Platform, 2021-2031
9.1.3.2.Market size analysis, by Platform Operations, 2021-2031
9.1.3.3.Market size analysis, by Range, 2021-2031
9.1.3.4.Market size analysis, by Platform Architecture, 2021-2031
9.1.4.Research Dive Exclusive Insights
9.1.4.1.Market attractiveness
9.1.4.2.Competition heatmap
9.2.Europe
9.2.1.Germany
9.2.1.1.Market size analysis, by Platform, 2021-2031
9.2.1.2.Market size analysis, by Platform Operations, 2021-2031
9.2.1.3.Market size analysis, by Range, 2021-2031
9.2.1.4.Market size analysis, by Platform Architecture, 2021-2031
9.2.2.UK
9.2.2.1.Market size analysis, by Platform, 2021-2031
9.2.2.2.Market size analysis, by Platform Operations, 2021-2031
9.2.2.3.Market size analysis, by Range, 2021-2031
9.2.2.4.Market size analysis, by Platform Architecture, 2021-2031
9.2.3.France
9.2.3.1.Market size analysis, by Platform, 2021-2031
9.2.3.2.Market size analysis, by Platform Operations, 2021-2031
9.2.3.3.Market size analysis, by Range, 2021-2031
9.2.3.4.Market size analysis, by Platform Architecture, 2021-2031
9.2.4.Spain
9.2.4.1.Market size analysis, by Platform, 2021-2031
9.2.4.2.Market size analysis, by Platform Operations, 2021-2031
9.2.4.3.Market size analysis, by Range, 2021-2031
9.2.4.4.Market size analysis, by Platform Architecture, 2021-2031
9.2.5.Italy
9.2.5.1.Market size analysis, by Platform, 2021-2031
9.2.5.2.Market size analysis, by Platform Operations, 2021-2031
9.2.5.3.Market size analysis, by Range, 2021-2031
9.2.5.4.Market size analysis, by Platform Architecture, 2021-2031
9.2.6.Rest of Europe
9.2.6.1.Market size analysis, by Platform, 2021-2031
9.2.6.2.Market size analysis, by Platform Operations, 2021-2031
9.2.6.3.Market size analysis, by Range, 2021-2031
9.2.6.4.Market size analysis, by Platform Architecture, 2021-2031
9.2.7.Research Dive Exclusive Insights
9.2.7.1.Market attractiveness
9.2.7.2.Competition heatmap
9.3.Asia Pacific
9.3.1.China
9.3.1.1.Market size analysis, by Platform, 2021-2031
9.3.1.2.Market size analysis, by Platform Operations, 2021-2031
9.3.1.3.Market size analysis, by Range, 2021-2031
9.3.1.4.Market size analysis, by Platform Architecture, 2021-2031
9.3.2.Japan
9.3.2.1.Market size analysis, by Platform, 2021-2031
9.3.2.2.Market size analysis, by Platform Operations, 2021-2031
9.3.2.3.Market size analysis, by Range, 2021-2031
9.3.2.4.Market size analysis, by Platform Architecture, 2021-2031
9.3.3.India
9.3.3.1.Market size analysis, by Platform, 2021-2031
9.3.3.2.Market size analysis, by Platform Operations, 2021-2031
9.3.3.3.Market size analysis, by Range, 2021-2031
9.3.3.4.Market size analysis, by Platform Architecture, 2021-2031
9.3.4.Australia
9.3.4.1.Market size analysis, by Platform, 2021-2031
9.3.4.2.Market size analysis, by Platform Operations, 2021-2031
9.3.4.3.Market size analysis, by Range, 2021-2031
9.3.4.4.Market size analysis, by Platform Architecture, 2021-2031
9.3.5.South Korea
9.3.5.1.Market size analysis, by Platform, 2021-2031
9.3.5.2.Market size analysis, by Platform Operations, 2021-2031
9.3.5.3.Market size analysis, by Range, 2021-2031
9.3.5.4.Market size analysis, by Platform Architecture, 2021-2031
9.3.6.Rest of Asia Pacific
9.3.6.1.Market size analysis, by Platform, 2021-2031
9.3.6.2.Market size analysis, by Platform Operations, 2021-2031
9.3.6.3.Market size analysis, by Range, 2021-2031
9.3.6.4.Market size analysis, by Platform Architecture, 2021-2031
9.3.7.Research Dive Exclusive Insights
9.3.7.1.Market attractiveness
9.3.7.2.Competition heatmap
9.4.LAMEA
9.4.1.Brazil
9.4.1.1.Market size analysis, by Platform, 2021-2031
9.4.1.2.Market size analysis, by Platform Operations, 2021-2031
9.4.1.3.Market size analysis, by Range, 2021-2031
9.4.1.4.Market size analysis, by Platform Architecture, 2021-2031
9.4.2.Saudi Arabia
9.4.2.1.Market size analysis, by Platform, 2021-2031
9.4.2.2.Market size analysis, by Platform Operations, 2021-2031
9.4.2.3.Market size analysis, by Range, 2021-2031
9.4.2.4.Market size analysis, by Platform Architecture, 2021-2031
9.4.3.UAE
9.4.3.1.Market size analysis, by Platform, 2021-2031
9.4.3.2.Market size analysis, by Platform Operations, 2021-2031
9.4.3.3.Market size analysis, by Range, 2021-2031
9.4.3.4.Market size analysis, by Platform Architecture, 2021-2031
9.4.4.South Africa
9.4.4.1.Market size analysis, by Platform, 2021-2031
9.4.4.2.Market size analysis, by Platform Operations, 2021-2031
9.4.4.3.Market size analysis, by Range, 2021-2031
9.4.4.4.Market size analysis, by Platform Architecture, 2021-2031
9.4.5.Rest of LAMEA
9.4.5.1.Market size analysis, by Platform, 2021-2031
9.4.5.2.Market size analysis, by Platform Operations, 2021-2031
9.4.5.3.Market size analysis, by Range, 2021-2031
9.4.5.4.Market size analysis, by Platform Architecture, 2021-2031
9.4.6.Research Dive Exclusive Insights
9.4.6.1.Market attractiveness
9.4.6.2.Competition heatmap
10.Competitive Landscape
10.1.Top winning strategies, 2021
10.1.1.By strategy
10.1.2.By year
10.2.Strategic overview
10.3.Market share analysis, 2021
11.Company Profiles
11.1.EHang
11.1.1.Overview
11.1.2.Business segments
11.1.3.Product portfolio
11.1.4.Financial performance
11.1.5.Recent developments
11.1.6.SWOT analysis
11.2.Lilium Gmbh
11.2.1.Overview
11.2.2.Business segments
11.2.3.Product portfolio
11.2.4.Financial performance
11.2.5.Recent developments
11.2.6.SWOT analysis
11.3.Airbus
11.3.1.Overview
11.3.2.Business segments
11.3.3.Product portfolio
11.3.4.Financial performance
11.3.5.Recent developments
11.3.6.SWOT analysis
11.4.Wisk Aero LLC.
11.4.1.Overview
11.4.2.Business segments
11.4.3.Product portfolio
11.4.4.Financial performance
11.4.5.Recent developments
11.4.6.SWOT analysis
11.5.Bell Textron
11.5.1.Overview
11.5.2.Business segments
11.5.3.Product portfolio
11.5.4.Financial performance
11.5.5.Recent developments
11.5.6.SWOT analysis
11.6.Volocopter GmbH
11.6.1.Overview
11.6.2.Business segments
11.6.3.Product portfolio
11.6.4.Financial performance
11.6.5.Recent developments
11.6.6.SWOT analysis
11.7.Workhorse Group Inc.
11.7.1.Overview
11.7.2.Business segments
11.7.3.Product portfolio
11.7.4.Financial performance
11.7.5.Recent developments
11.7.6.SWOT analysis
11.8.Joby Aviation.
11.8.1.Overview
11.8.2.Business segments
11.8.3.Product portfolio
11.8.4.Financial performance
11.8.5.Recent developments
11.8.6.SWOT analysis
11.9.Kitty Hawk
11.9.1.Overview
11.9.2.Business segments
11.9.3.Product portfolio
11.9.4.Financial performance
11.9.5.Recent developments
11.9.6.SWOT analysis
11.10.Archer Aviation
11.10.1.Overview
11.10.2.Business segments
11.10.3.Product portfolio
11.10.4.Financial performance
11.10.5.Recent developments
11.10.6.SWOT analysis
12.Appendix
12.1.Parent & peer market analysis
12.2.Premium insights from industry experts
12.3.Related reports
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