Crazy Wisdom

In this episode of the Crazy Wisdom Podcast, I, Stewart Alsop, speak with Leo Kayali, CEO of Invo Station, about the pioneering world of electric flying vehicles (eVTOLs). Leo shares how his early sketches evolved into a patented design for a personal electric flying vehicle, inspired by none other than Leonardo da Vinci. We dive into the challenges of scaling production, environmental impacts, and the critical role of automation and autonomy. Leo also explains the regulatory landscape, aiming for a near-future where electric flying vehicles integrate seamlessly into urban spaces. You can find more about Leo’s work on Invo Station's website and follow them on social media @invostation. Also, if you're around, Leo’s team will showcase their tech at CES 2025 in Las Vegas.

Check out this GPT we trained on the conversation!

Timestamps

00:00 Introduction to the Crazy Wisdom Podcast
00:15 The Birth of a Flying Car Idea
01:01 Prototyping and Early Development
02:13 Design Inspirations and Challenges
06:39 Battery Innovations and Future Prospects
12:24 Mass Production and Automation
26:26 Autonomy in Flying Vehicles
32:23 Introduction to eVTOL Vehicles
32:54 Autonomy and Safety Systems
34:13 Regulatory Landscape and Industry Collaboration
35:58 Upcoming Releases and Pre-Orders
37:15 Future of Urban Air Mobility
39:32 Global Market Potential
42:40 Innovative Vehicle Designs
52:04 Charging and Infrastructure
52:36 Lessons from Historical Inventors
58:38 Conclusion and Contact Information

Key Insights
  1. The Birth of Electric Flying Vehicles: Leo Kayali, CEO of Invo Station, explains his journey from sketching ideas in a coffee shop to prototyping his eVTOL concept. Inspired by Leonardo da Vinci’s inventive spirit, he developed a design that draws on the artist’s legacy of combining engineering with aesthetics. This approach led him to conceptualize a circular vehicle layout, which is optimized for lift and resembles Da Vinci’s early designs. His design not only aims to innovate but to shape the future of personal and sustainable aerial transportation.
  2. The Benefits of Aerial Autonomy: Autonomy in flying vehicles is, as Leo describes, paradoxically easier to achieve than with ground vehicles due to the reduced number of obstacles. In the air, autonomy faces fewer unpredictable factors like pedestrians, stoplights, and multiple vehicle types. Instead, aerial autonomy focuses on collision avoidance, scanning airspace, and adapting to bird traffic, making fully autonomous air vehicles a viable and less complex solution compared to self-driving cars.
  3. Revolutionizing Mass Production for eVTOLs: One of Leo's core goals is to make eVTOLs affordable and mass-producible. Drawing on his experience with Tesla and Siemens, he designed Invo Station’s production process for efficiency and scalability, so that vehicle production could be completed in just two minutes, thanks to advanced automation and robotics. This approach allows Invo Station to eventually sell flying vehicles at a consumer-friendly price, potentially putting eVTOLs within reach of the average car buyer.
  4. Environmental Impact and Emission Reduction: Invo Station’s mission is not just about bringing flying cars to market but also about tackling urban pollution and reducing emissions. Leo envisions a future where flying electric vehicles replace traditional cars for shorter urban trips, significantly reducing air pollution and congestion. He is especially interested in targeting cities with heavy traffic and pollution issues, like São Paulo and Los Angeles, to create a real, measurable impact on urban sustainability.
  5. Regulatory Challenges and Industry Standardization: With new regulatory frameworks emerging after 80 years of stagnant aviation standards, Leo believes the current climate is favorable for eVTOL integration. Invo Station works closely with regulators, helping to set safety and operation standards for urban air mobility. Although the regulatory landscape is evolving, Leo’s aim is to influence these standards to support a future where autonomous flying vehicles share airspace safely and efficiently with traditional aircraft and other eVTOLs.
  6. Battery Innovation and Energy Efficiency: A critical part of making eVTOLs practical is optimizing battery life and charge times. Leo discusses potential breakthroughs in solid-state lithium batteries that could reach ranges up to 900 miles with rapid charging capability. This would far surpass the range of current lithium-ion batteries and make eVTOLs viable for longer journeys, enhancing both usability and energy efficiency in the electric vehicle market.
  7. Future of Multi-Purpose eVTOL Applications: Beyond personal transportation, Leo envisions a wide range of applications for eVTOLs, from emergency response vehicles to freight transport. Invo Station is already planning models with features like firefighting capabilities, medical transport, and goods delivery, all optimized to reduce weight and maximize functionality. These diverse applications could fundamentally change how cities operate, providing rapid response in emergencies and potentially creating a new standard in logistics and public safety.

What is Crazy Wisdom?

In his series "Crazy Wisdom," Stewart Alsop explores cutting-edge topics, particularly in the realm of technology, such as Urbit and artificial intelligence. Alsop embarks on a quest for meaning, engaging with others to expand his own understanding of reality and that of his audience. The topics covered in "Crazy Wisdom" are diverse, ranging from emerging technologies to spirituality, philosophy, and general life experiences. Alsop's unique approach aims to make connections between seemingly unrelated subjects, tying together ideas in unconventional ways.