The global Advanced Air Mobility (AAM) Market is on the verge of a revolutionary transformation, with forecasts indicating a surge in market value from USD 3.83 billion in 2024 to a staggering USD 30 billion by 2035. This remarkable growth reflects a Compound Annual Growth Rate (CAGR) of 20.59% during the period from 2025 to 2035, according to a recent report published by Market Research Future. As urbanization intensifies, congestion worsens, and environmental sustainability becomes a critical priority, AAM solutions are increasingly being recognized as the future of aviation and urban transport.
The Evolution of Advanced Air Mobility
Advanced Air Mobility refers to a transformative aviation ecosystem that uses highly automated, electric or hybrid-electric aircraft to transport passengers and cargo at lower altitudes. These vehicles, often referred to as eVTOLs (electric vertical take-off and landing aircraft), are designed to enhance urban and regional mobility by bypassing traditional ground-based transportation bottlenecks. Unlike conventional aircraft, AAM systems are designed for short-range flights, often within or between cities, using vertical or short runways, rooftops, or designated sky ports.
AAM is not just a novel concept—it’s becoming a necessary reality. With increasing urban population density and environmental concerns, the demand for cleaner, quicker, and more efficient modes of transport is higher than ever. From air taxis to cargo drones and medical emergency response vehicles, the applications of AAM are broad and increasingly viable.
Key Market Drivers
Several factors are propelling the growth of the Advanced Air Mobility market:
Technological Innovation: Breakthroughs in battery energy density, electric propulsion systems, autonomous flight technologies, and lightweight materials are making AAM more feasible and cost-effective.
Environmental Sustainability: AAM vehicles are typically electric or hybrid-electric, contributing to lower emissions and reduced noise pollution compared to traditional aircraft or ground vehicles.
Urban Congestion: With megacities facing chronic traffic congestion, AAM offers a viable alternative by utilizing low-altitude airspace for faster commutes.
Government Support: Regulatory bodies such as the FAA (Federal Aviation Administration) and EASA (European Union Aviation Safety Agency) are actively developing frameworks to integrate AAM into the existing air traffic management systems.
Investment & Partnerships: Significant investments from both the public and private sectors are fueling R&D, infrastructure development, and pilot programs around the world.
Key Companies in the Advanced Air Mobility Market Include:
The AAM market is drawing attention from aerospace giants, innovative startups, and major tech companies alike. Key players contributing to this market’s growth include:
Lilium – Known for its electric jet aircraft designed for regional air mobility.
EHang – A Chinese pioneer in autonomous aerial vehicles, with multiple successful pilot projects.
Joby Aviation – One of the frontrunners in the eVTOL race with strong backing from investors and tech firms.
Volocopter – Focused on building urban air taxis with a strong presence in Europe and Asia.
Airbus and Boeing – Aviation titans actively exploring AAM through multiple projects and partnerships.
Uber Technologies – Although it sold its Elevate division, Uber continues to be involved in the broader AAM ecosystem through partnerships.
Bell Textron, Daimler, Terrafugia, Northrop Grumman, Pixxel, Heerema Marine Contractors, and Lilienthal Aerospace – These companies are playing key roles in developing, testing, or supplying components for next-gen aircraft and infrastructure.
Challenges and Considerations
Despite its promising outlook, the AAM market still faces several hurdles:
- Regulatory Approvals: Harmonizing global air traffic management and ensuring the safety of AAM operations will be essential.
- Public Acceptance: Urban dwellers need to be assured of the safety, reliability, and environmental benefits of these new flying vehicles.
- Infrastructure: Developing skyports, charging stations, and maintenance facilities will require extensive planning and investment.
- Skilled Workforce: Pilots, air traffic controllers, and maintenance personnel will need new training and certification standards.
The Road Ahead
The next decade will be critical for the commercialization and scaling of Advanced Air Mobility solutions. Pilot programs and city partnerships are already underway across the United States, Europe, and Asia. With continued regulatory cooperation, public-private investments, and advances in autonomous and electric technologies, AAM could become an integral part of our daily transport landscape much sooner than anticipated.