Wisk Aero and Signature Aviation Partner to Develop Autonomous Air Mobility Infrastructure

Wisk Aero and Signature Aviation Partnership: Pioneering Infrastructure for Autonomous Advanced Air Mobility Operations

The partnership between Wisk Aero and Signature Aviation marks a significant milestone in the evolution of Advanced Air Mobility (AAM). Announced on August 13, 2025, this collaboration is one of the first to unite a leading autonomous eVTOL aircraft developer with the world’s largest private aviation terminal network. The alliance aims to proactively develop vertiport infrastructure and operational frameworks for integrating autonomous electric vertical takeoff and landing (eVTOL) aircraft across Signature Aviation’s global network, including key U.S. launch markets such as Houston, Los Angeles, and Miami.

With a focus on strategic planning, the partnership will assess the feasibility of vertiport development, evaluate commercial and regulatory requirements, and initiate pilot projects, starting with Ellington Airport in Houston. This move addresses the growing need for specialized AAM infrastructure and positions both companies at the forefront of an industry that, according to market research, could reach a global valuation of $27 billion by 2034.

The collaboration not only sets a precedent for infrastructure readiness but also reflects a broader trend in aviation modernization, sustainability, and the integration of autonomous technologies into real-world transportation networks.

Advanced Air Mobility: Industry Foundation and Evolution

Advanced Air Mobility is an umbrella term for a new class of highly automated, often electrically powered aircraft capable of vertical takeoff and landing. The FAA defines AAM as encompassing aircraft used for transporting passengers and cargo, firefighting, and search and rescue, with most falling into the “powered-lift” or air taxi category. The sector’s emergence is rooted in technological advances in battery systems, electric propulsion, and autonomous flight controls, solutions to urban congestion, environmental sustainability, and the demand for faster, more flexible transportation.

Wisk Aero’s journey mirrors the industry’s rapid evolution. Since its technological roots in 2010, Wisk has developed and flown six generations of eVTOL aircraft, accumulating over 1,750 test flights. Notable milestones include the first piloted eVTOL hover in 2016, the first piloted eVTOL transition in 2017, and the first tandem piloted and autonomous eVTOL flight later that year. These achievements highlight the sector’s progression from prototypes to commercially viable, autonomous vehicles.

The global eVTOL market was valued at about $3.5 billion in 2024, with forecasts suggesting growth to nearly $27 billion by 2034. This expansion is fueled by urbanization, government sustainability initiatives, and increasing private investment, particularly from aerospace giants. Regulatory bodies like the FAA are actively developing certification and infrastructure standards, further supporting the sector’s growth trajectory.

Wisk Aero: Corporate Profile and Technological Leadership

Wisk Aero, founded as a joint venture between Boeing and Kitty Hawk in 2019, is a pioneer in autonomous eVTOL technology. Its headquarters in Mountain View, California, serve as a hub for over 500 employees dedicated to developing the first fully autonomous, passenger-carrying eVTOL aircraft for commercial use. Wisk’s “straight-to-autonomy” approach sets it apart from competitors who plan to transition from piloted to autonomous operations.

The company’s Generation 6 aircraft, unveiled in 2022, is designed for four passengers, features 12 distributed electric propellers, and can cruise at 138 mph for up to 90 miles. Its battery system recharges in about 15 minutes, and redundancy is built into every critical system to ensure safety. Wisk’s acquisition of SkyGrid, an airspace integration software specialist, further strengthens its ability to manage both aircraft autonomy and digital airspace.

Wisk’s focus on safety, accessibility, and regulatory compliance is underscored by its direct collaboration with the FAA for type certification. A $450 million investment from Boeing in 2022 has solidified Wisk’s position as one of the most well-funded AAM companies globally.

“As the world’s largest network of private aviation terminals, Signature’s forward-leaning approach to aviation modernization aligns with our vision. Together, we’re building the robust infrastructure and integrated network essential for safe, scaled operations.”, Dan Dalton, VP of Global Partnerships, Wisk Aero

Signature Aviation: Network Infrastructure and Market Position

Signature Aviation operates over 200 private aviation terminals across 27 countries, making it the world’s largest aviation hospitality provider. Its facilities support business and private aviation with services including refueling, hangarage, maintenance, and passenger amenities. Signature’s infrastructure is uniquely positioned to support eVTOL operations, as many locations already have the necessary electrical and ground support capabilities.

The company is also a global leader in sustainable aviation fuel distribution and operates over 16 million square feet of carbon-neutral office and hangar space. Signature’s BRAVO membership program, expanded globally in 2024, demonstrates its customer-focused approach and ability to adapt to evolving industry needs.

Facilities such as those at San Francisco International Airport exemplify Signature’s readiness, with executive terminals, conference rooms, and large-capacity hangars. This operational sophistication, combined with a commitment to sustainability and modernization, makes Signature an ideal partner for AAM integration.

Strategic Partnership Implementation and Vertiport Development

The Memorandum of Understanding between Wisk and Signature Aviation establishes a framework for developing vertiport infrastructure and operational procedures tailored to autonomous eVTOL operations. The first pilot project at Ellington Airport in Houston involves designing vertiport concepts, operational workflows, and infrastructure requirements specific to Wisk’s Generation 6 aircraft.

This initiative builds on Wisk’s existing collaborations with local authorities in Texas and serves as a model for future deployments across Signature’s network. The partnership is not limited to infrastructure; it also encompasses the development of safety protocols, commercial agreements, and passenger experience enhancements.

Regulatory guidance for vertiport design, such as the FAA’s Engineering Brief 105A, provides a foundation for these projects. Construction costs for vertiports can range from $100,000 for modular facilities to $12 million for large urban vertihubs, depending on complexity and location. Operating costs and energy demands are significant considerations, especially as eVTOL fleets require robust charging infrastructure.

Market Analysis and Economic Projections

The AAM market is projected to grow rapidly, with the eVTOL segment expected to reach $27 billion by 2034. Urban air mobility, a subset of AAM, is forecasted to expand from $4.38 billion in 2024 to $14.68 billion by 2029, driven by urbanization, technological advancement, and the need for efficient transportation alternatives.

Multirotor eVTOLs currently dominate the market due to their adaptability, but as technology matures, more advanced designs like Wisk’s Generation 6 are likely to gain market share. Investment from major aerospace companies, such as Boeing, underscores confidence in the sector’s long-term potential.

Regional adoption is expected to begin in North America and Europe, with Asia-Pacific markets following as regulatory environments mature. Governments are supporting AAM through subsidies and infrastructure modernization, recognizing its potential economic and environmental benefits.

“Advanced air mobility represents a transformative opportunity to shape the future of our industry and together with Wisk, we are proactively exploring the infrastructure and strategic planning necessary to expand our exceptional, forward-thinking guest experience across our network in the future.”, Derek DeCross, Chief Commercial Officer, Signature Aviation

Regulatory and Technical Challenges

Certification and regulatory approval remain significant hurdles for AAM deployment. The FAA is working to adapt existing regulations for powered-lift and autonomous aircraft, but progress has been slow due to the complexity of integrating new technologies into established frameworks. The lack of consensus on certification paths has led to delays and uncertainty for manufacturers.

Despite these challenges, the FAA has issued guidance for vertiport design and is collaborating with industry stakeholders to develop operational standards. Programs like Virginia Tech’s Smart Airspace initiative are pioneering new instrument flight procedures tailored to AAM, aiming to ensure safe integration with existing airspace.

Wisk’s direct engagement with regulators and its focus on safety and redundancy in aircraft design position it well to navigate these challenges. The company’s “straight-to-autonomy” strategy requires robust data, extensive testing, and transparent collaboration with authorities.

Conclusion

The Wisk Aero and Signature Aviation partnership sets a new standard for the integration of autonomous Advanced Air Mobility into established aviation infrastructure. By combining Wisk’s technological leadership in autonomous eVTOL aircraft with Signature’s global network and operational expertise, the collaboration addresses critical challenges related to infrastructure, regulatory compliance, and commercial viability.

As the AAM industry moves toward commercialization, partnerships like this will be essential for scaling operations, building public trust, and demonstrating the value of autonomous air transportation. The success of the Wisk-Signature alliance will likely influence the broader industry and accelerate the adoption of sustainable, efficient, and accessible air mobility solutions in urban environments.

FAQ

What is Advanced Air Mobility (AAM)?
Advanced Air Mobility refers to a new class of highly automated, often electric aircraft designed for short-distance passenger and cargo transport, including vertical takeoff and landing operations.

What is the significance of the Wisk and Signature Aviation partnership?
This partnership is one of the first to focus on developing infrastructure and operational frameworks specifically for autonomous eVTOL operations at a global scale, setting a precedent for industry adoption and regulatory collaboration.

What are vertiports and why are they important?
Vertiports are specialized facilities designed for the takeoff, landing, charging, and maintenance of eVTOL aircraft. They are critical for enabling the safe and efficient operation of Advanced Air Mobility services in urban environments.

What are the main challenges facing AAM deployment?
Key challenges include regulatory certification, infrastructure development, integration with existing airspace, public acceptance, and achieving commercial viability through efficient operations and cost management.

How soon could autonomous air taxis become commercially available?
While timelines depend on regulatory approval and infrastructure readiness, industry leaders anticipate initial deployments in select markets within the next few years, subject to successful certification and pilot projects.

Sources: Wisk Aero Press Release, Signature Aviation, FAA