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Global and Asia-Pacific Advanced Air Mobility (AAM) Market: Focus on Design, Platform Development, Range, Energy Source, Component, and Country - Analysis and Forecast, 2023-2035


Introduction of Global and Asia-Pacific Advanced Air Mobility (AAM) Advanced air mobility (AAM) or urban air mobility (UAM) is an innovative concept in air transportation, integrating cutting-edge... もっと見る

 

 

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Summary

Introduction of Global and Asia-Pacific Advanced Air Mobility (AAM) Advanced air mobility (AAM) or urban air mobility (UAM) is an innovative concept in air transportation, integrating cutting-edge flight technologies and transformative aircraft designs into existing airspace operations. Its primary objective is to establish a secure, automated, accessible, and cost-effective air transportation system for both cargo and passengers, particularly in locations that were previously challenging to reach in urban and rural settings. A distinguishing feature of the aircraft operating in this airspace is their compact size, deviating from traditional helicopters and commercial planes. Continuous tracking or control of these aircraft using satellite or radar technology has become increasingly impractical. Urban air mobility (UAM) further evolves AAM, focusing on efficiently connecting people with cities and regions using highly automated aircraft operating at lower altitudes within urban and suburban areas. The broader framework of advanced air mobility extends beyond urban areas, encompassing public services, short and long-range commercial inter-city travel, cargo delivery, and recreational or private vehicles. Despite the availability of advanced technologies in the market, the integration of these innovations to meet regulatory requirements and gain public acceptance remains a significant hurdle. Successful commercialization of the AAM market and ensuring sustainable growth in the future necessitate active engagement from stakeholders. Market Introduction The seamless integration of advanced air mobility (AAM) or urban air mobility (UAM) with current private and public ground transportation emerges as a compelling catalyst for the industry. This integration facilitates smooth intermodal journeys, elevating overall transportation efficiency and connectivity. The surging congestion on urban roads serves as a substantial driving force, compelling the uptake of AAM solutions to mitigate traffic gridlock and provide swifter, more effective transportation modes. Challenges encountered by the advanced air mobility market revolve around insufficient ground infrastructure, encompassing vertiports, and essential physical structures required for the smooth assimilation of AAM solutions into existing transportation networks. The absence of these pivotal elements poses a barrier to the widespread adoption of AAM technologies. Industrial Impact The rise of advanced air mobility (AAM) or urban air mobility (UAM) is set to bring about a transformative impact on various industries, particularly in transportation, logistics, and urban planning. In the realm of transportation, AAM is poised to revolutionize the movement of people and goods, offering efficient and swift aerial mobility solutions. This groundbreaking technology is anticipated to address challenges such as traffic congestion, reduce travel times, and enhance overall transportation efficiency, especially in densely populated urban environments. Logistics and supply chain sectors are poised to experience significant advantages from AAM, facilitating quicker and more direct deliveries and optimizing the flow of goods. AAM solutions, capable of navigating beyond ground-level obstacles, have the potential to streamline supply chain operations, minimizing lead times and improving overall logistics efficiency. Furthermore, AAM is positioned to transform emergency response and medical services by providing rapid and direct aerial access to remote or challenging locations, thereby enhancing the effectiveness of critical operations during emergencies. In urban planning, the incorporation of AAM introduces novel opportunities for smart cities, influencing infrastructure development and reshaping the concept of transportation hubs. As AAM continues to advance, its industrial impact transcends traditional aviation, instigating a paradigm shift in how airspace is perceived and navigated. This evolution fosters innovation and sustainable growth across a spectrum of diverse sectors. Market Segmentation: Segmentation 1: by Design • Lift and Cruise • Tiltrotor • Multicopter • Ducted Vector Multicopter Segment to Dominate the Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Design) The global and Asia-Pacific advanced air mobility (AAM) market based on design is led by multicopter. Segmentation 2: by Component • Hardware • Software Hardware Segment to Dominate the Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Component) The global and Asia-Pacific advanced air mobility (AAM) market based on component is led by hardware components. Segmentation 3: by Energy Source • Electric Propulsion • Hybrid Propulsion • Hydrogen Propulsion Electric Propulsion Segment to Dominate the Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Energy Source) Electric Propulsion is at the forefront of the global and Asia Pacific advanced air mobility market due to its higher level of technological maturity and alignment with global environmental sustainability goals. Segmentation 4: by Range • <20 Km • 21-100 Km • 101-400 Km • >400 Km <20 Km Segment to Dominate the Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Range) The <20km segment currently leads the global and Asia-Pacific advanced air mobility (AAM) market based on range due to its alignment with Urban Air Mobility (UAM) initiatives, which focus on mitigating congestion in densely populated urban centers. Segmentation 5: by Platform Development • Delivery Drones • eVTOLs Delivery Drones Segment to Dominate the Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Platform Development) The global and Asia-Pacific advanced air mobility (AAM) market based on platform development is led by delivery drones because delivery drones are well-suited for industries, such as e-commerce and healthcare, where the need for swift and agile delivery is critical. Furthermore, the advent of the delivery drone has revolutionized aerial transportation, offering an efficient and swift solution for last-mile logistics in urban areas. Drones are well-suited for specific industries, such as e-commerce and healthcare, where the need for swift and agile delivery is critical. Segmentation 6: by Region • North America, Europe, and Rest-of-the-World • Asia-Pacific North America, Europe, and Rest-of-the-World to Dominate the Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Region) The global and Asia-Pacific advanced air mobility (AAM) market based on region is led by North America, Europe, and Rest-of-the-World. Recent Developments in the Global and Aisa-Pacific Advanced Air Mobility (AAM) Market • In August 2023, Archer Aviation obtained a special airworthiness certificate from the FAA for its Maker eVTOL technology demonstrator, allowing the vehicle to undergo initial hover test flights. This achievement signifies a crucial step in Archer's mission to develop and launch commercial eVTOL services by the end of 2024. • Bye Aerospace reached a noteworthy milestone in September 2023 when the FAA accepted the "Functional Hazard Analysis" for its purposefully designed electric eFlyer two aircraft. The established FAA certification basis for the eFlyer 2 (Project No. TC09549CH-A) confirmed its eligibility for a type certificate, with the FAA affirming that the type design adhered to the U.S. type certification basis and met safety standards for the requested certification category. • In September 2023, Airobotics Inc., a leading manufacturer of unmanned aircraft systems, secured airworthiness type certification from the FAA for its Optimus-1EX. This recognition is significant as the second-ever uncrewed aircraft to achieve such certification and the inaugural "Drone-in-a-Box solution" dedicated to fully automated drone operations for emergency response and digital data capturing. The Optimus-1EX's certification opens avenues for diverse applications, including drone first responding (DFR) and swift infrastructure surveys for disaster relief. • In July 2023, Joby Aviation marked a significant achievement by receiving a special airworthiness certificate from the FAA for its inaugural aircraft. This breakthrough allows Joby to progress to the next phase of flight testing for its production prototype. The granted certificate positions Joby to fulfill its vision of introducing the world's premier electric vertical take-off and landing (eVTOL) aircraft, scheduled for delivery to Edwards Air Force Base in 2024 as part of its Agility Prime contract with the U.S. Air Force. The extended Agility Prime contract, now valued at up to $131 million, reflects ongoing collaboration with key partner and investor Toyota, which invested approximately $400 million in the production line. How can this report add value to an organization? Product/Innovation Strategy: The product segment helps the reader understand the different types of services available for deployment and their potential globally. Moreover, the study provides the reader with a detailed understanding of the global and Asia-Pacific advanced air mobility market by products based on design, component, energy source, range, and platform development. Growth/Marketing Strategy: The global and Asia-Pacific advanced air mobility market has seen major development by key players operating in the market, such as business expansion, partnership, collaboration, and joint venture. The favored strategy for the companies has been merger and acquisition to strengthen their position in the global and Asia-Pacific advanced air mobility market. For instance, Supernal and Inmarsat have revealed a collaborative venture to outline the utilization of satellite connectivity in advanced air mobility (AAM). The two entities will engage in testing and exchanging data to enhance hardware and network systems, aiming to facilitate the secure and efficient assimilation of electric vertical take-off and landing (eVTOL) vehicles into airspace. Methodology: The research methodology design adopted for this specific study includes a mix of data collected from primary and secondary data sources. Both primary resources (key players, market leaders, and in-house experts) and secondary research (a host of paid and unpaid databases), along with analytical tools, have been employed to build the predictive and forecast models. Data and validation have been taken into consideration from both primary sources as well as secondary sources. Key Considerations and Assumptions in Market Engineering and Validation • Detailed secondary research has been done to ensure maximum coverage of manufacturers/suppliers operational in a country. • Exact revenue information, up to a certain extent, has been extracted for each company from secondary sources and databases. Revenues specific to product/service/technology were then estimated based on fact-based proxy indicators as well as primary inputs. • Based on the classification, the average selling price (ASP) has been calculated using the weighted average method. • The currency conversion rate has been taken from the historical exchange rate of Oanda and/or other relevant websites. • Any economic downturn in the future has not been taken into consideration for the market estimation and forecast. • The base currency considered for the market analysis is US$. Currencies other than the US$ have been converted to the US$ for all statistical calculations, considering the average conversion rate for that particular year. • The term “product” in this document may refer to “service” or “technology” as and where relevant. • The term “manufacturers/suppliers” may refer to “service providers” or “technology providers” as and where relevant. Primary Research The primary sources involve industry experts from the global and Asia-Pacific advanced air mobility industry, including advanced air mobility product providers. Respondents such as CEOs, vice presidents, marketing directors, and technology and innovation directors have been interviewed to obtain and verify both qualitative and quantitative aspects of this research study. Secondary Research This study involves the usage of extensive secondary research, company websites, directories, and annual reports. It also makes use of databases, such as Businessweek and others, to collect effective and useful information for a market-oriented, technical, commercial, and extensive study of the global market. In addition to the data sources, the study has been undertaken with the help of other data sources and websites. Secondary research was done to obtain critical information about the industry’s value chain, the market’s monetary chain, revenue models, the total pool of key players, and the current and potential use cases and applications. Some prominent names established in this market are: • Joby Aviation • Beta Technologies • Wisk Aero LLC. • Lilium • Volocopter • Archer • EHang • Ascendance Flight Technologies • Eve Holding, Inc. • AURA Network Systems, Inc. • XTI Aircraft Company • Urban Aeronautics • Airspace Experience Technologies, Inc.

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Table of Contents

Executive Summary Scope and Definition 1 Markets 1.1 Overview: Global and Asia-Pacific Advanced Air Mobility Market (AAM) 1.2 OEMs Applying Airworthiness (AW)/Type Certificate (TC) in the World 1.3 Start-Ups and Investment Landscape 1.4 Supply Chain Overview 2 Products 2.1 Product Summary 2.2 Global and Asia-Pacific Advanced Air Mobility (AAM) Market 2.2.1 Market Overview 2.3 Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Design) 2.3.1 Lift and Cruise 2.3.2 Tiltrotor 2.3.3 Multicopter 2.3.4 Ducted Vector 2.4 Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Platform Development) 2.4.1 Delivery Drones 2.4.2 eVTOLs 2.4.2.1 Air Taxi 2.4.2.2 Personal Air Vehicle 2.4.2.3 Air Ambulance and Medical Transportation 2.5 Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Range) 2.5.1 <20 km 2.5.2 21-100 km 2.5.3 101-400 km 2.5.4 >400 km 2.6 Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Energy Source) 2.6.1 Electric Propulsion 2.6.2 Hybrid Propulsion 2.6.3 Hydrogen Propulsion 2.7 Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Component) 2.7.1 Hardware 2.7.1.1 Aerostructure 2.7.1.2 Avionics 2.7.1.3 Flight Control System 2.7.1.4 Others 2.7.2 Software 3 Regions 3.1 Regional Summary 3.2 North America, Europe, and Rest-of-the-World 3.2.1 Regional Overview 3.2.2 Driving Factors for Market Growth 3.2.3 Factors Challenging the Market 3.2.4 Product 3.3 Asia-Pacific 3.3.1 Regional Overview 3.3.2 Driving Factors for Market Growth 3.3.3 Factors Challenging the Market 3.3.4 Product 3.3.5 China 3.3.6 Product 3.3.7 Japan 3.3.8 Product 3.3.9 South Korea 3.3.10 Product 3.3.11 Thailand 3.3.12 Product 3.3.13 Singapore 3.3.14 Product 3.3.15 Indonesia 3.3.16 Product 3.3.17 Philippines 3.3.18 Product 3.3.19 Vietnam 3.3.20 Product 3.3.21 Rest-of-Asia-Pacific 3.3.22 Product 4 Research Methodology 4.1 Data Sources 4.1.1 Primary Data Sources 4.1.2 Secondary Data Sources 4.1.3 Data Triangulation 4.2 Market Estimation and Forecast List of Figures Figure 1: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Region), $Million, 2022, 2026, and 2035 Figure 2: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Design), $Million, 2022, 2026, and 2035 Figure 3: Asia-Pacific Advanced Air Mobility (AAM) Market (by Design), $Million, 2022, 2026, and 2035 Figure 4: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022, 2026, and 2035 Figure 5: Asia-Pacific Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022, 2026, and 2035 Figure 6: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Range), $Million, 2022, 2026, and 2035 Figure 7: Asia-Pacific Advanced Air Mobility (AAM) Market (by Range), $Million, 2022, 2026, and 2035 Figure 8: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022, 2026, and 2035 Figure 9: Asia-Pacific Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022, 2026, and 2035 Figure 10: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Component), $Million, 2022, 2026, and 2035 Figure 11: Asia-Pacific Advanced Air Mobility (AAM) Market (by Component), $Million, 2022, 2026, and 2035 Figure 12: Supply Chain and Risks within the Supply Chain Figure 13: China Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 14: Japan Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 15: South Korea Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 16: Thailand Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 17: Singapore Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 18: Indonesia Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 19: Philippines Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 20: Vietnam Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 21: Rest-of-Asia-Pacific Advanced Air Mobility (AAM) Market, $Million, 2022-2035 Figure 22: Data Triangulation Figure 23: Top-Down and Bottom-Up Approach Figure 24: Assumptions and Limitations List of Tables Table 1: Market Snapshot Table 2: Global and Asia-Pacific Advanced Air Mobility (AAM) Market Opportunities across Regions Table 3: Funding and Investment Scenario, January 2019-January 2024 Table 4: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 5: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 6: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 7: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 8: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 9: Global and Asia-Pacific Advanced Air Mobility (AAM) Market (by Region), $Million, 2022-2035 Table 10: North America, Europe, and Rest-of-the-World Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 11: North America, Europe, and Rest-of-the-World Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 12: North America, Europe, and Rest-of-the-World Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 13: North America, Europe, and Rest-of-the-World Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 14: North America, Europe, and Rest-of-the-World Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 15: Asia-Pacific Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 16: Asia-Pacific Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 17: Asia-Pacific Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 18: Asia-Pacific Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 19: Asia-Pacific Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 20: China Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 21: China Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 22: China Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 23: China Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 24: China Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 25: Japan Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 26: Japan Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 27: Japan Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 28: Japan Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 29: Japan Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 30: South Korea Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 31: South Korea Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 32: South Korea Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 33: South Korea Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 34: South Korea Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 35: Thailand Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 36: Thailand Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 37: Thailand Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 38: Thailand Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 39: Thailand Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 40: Singapore Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 41: Singapore Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 42: Singapore Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 43: Singapore Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 44: Singapore Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 45: Indonesia UAM Regulatory Framework Table 46: Indonesia Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 47: Indonesia Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 48: Indonesia Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 49: Indonesia Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 50: Indonesia Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 51: Philippines Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 52: Philippines Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 53: Philippines Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 54: Philippines Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 55: Philippines Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 56: Vietnam Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 57: Vietnam Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 58: Vietnam Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 59: Vietnam Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 60: Vietnam Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035 Table 61: Rest-of-Asia-Pacific Advanced Air Mobility (AAM) Market (by Design), $Million, 2022-2035 Table 62: Rest-of-Asia-Pacific Advanced Air Mobility (AAM) Market (by Platform Development), $Million, 2022-2035 Table 63: Rest-of-Asia-Pacific Advanced Air Mobility (AAM) Market (by Range), $Million, 2022-2035 Table 64: Rest-of-Asia-Pacific Advanced Air Mobility (AAM) Market (by Energy Source), $Million, 2022-2035 Table 65: Rest-of-Asia-Pacific Advanced Air Mobility (AAM) Market (by Component), $Million, 2022-2035

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Press Release

The global and Asia-Pacific advanced air mobility (AAM) market is estimated to reach $20.37 billion by 2035, reveals the premium market intelligence study by BIS Research. The study also highlights that the market is set to witness a CAGR of 19.88% during the forecast period 2023-2035.

USP of the Report

• A dedicated section on growth opportunities and recommendations
• A qualitative and quantitative analysis of the global and Asia-Pacific advanced air mobility market based on product
• Trend and challenge analysis of different countries, which include:
o China
o Japan
o South Korea
o Thailand
o Singapore
o Indonesia
• Regional and country-level forecast
• A detailed company profile comprising established players and some start-ups that are capable of significant growth, along with an analyst view

Analyst Perspective

According to Rajat Srivastava, principal analyst at BIS Research, “The global and Asia-Pacific advanced air mobility (AAM) market is on the brink of a transformative era, fueled by rapid technological advancements and growing commitment to sustainable transportation solutions. The market is driven by the integration of electric propulsion systems, autonomous flight technologies, and innovative urban air mobility (UAM) concepts. Recent developments, such as the successful test flights of electric vertical take-off and landing (eVTOL) aircraft or unmanned aerial system (UAS) and increasing investments from major aerospace and transportation companies, underscore the market's momentum. In the U.S., the Federal Aviation Administration's proactive approach to regulating and integrating AAM operations into national airspace is fostering a conducive environment for growth. Additionally, strategic partnerships between technology start-ups, aviation giants, and government entities in the Asia-Pacific region are paving the way for advanced infrastructure and regulatory frameworks.”

Key Questions Answered in the Report

• What is the estimated global market size for the global and Asia-Pacific advanced air mobility (AAM) market?
• Who are the primary suppliers in the global and Asia-Pacific advanced air mobility (AAM) market?
• What are the different advanced air mobility (AAM) types available in the market?
• Which geographical area holds the largest global and Asia-Pacific advanced air mobility (AAM) market share?
• How has the COVID-19 outbreak affected the future trajectory of the global and Asia-Pacific advanced air mobility (AAM) market?
• What factors drive global and Asia-Pacific advanced air mobility (AAM) growth?
• What future trends are expected in the global and Asia-Pacific advanced air mobility (AAM)?

 

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