I love looking into the future and thinking about how the world around us may work in the near future.
As the former policy director for transport for London, I’ve had the privilege of shaping the evolution of urban mobility in one of the world’s most dynamic cities. From delivering a new cycle hire scheme, re-designing road space, pushing forward the adoption of EVs and making the case for the £18bn Crossrail line, my experiences have given me unique set of insights into the challenges and opportunities that lie ahead for global metropolises as they grapple with the future of transportation. I’d like to share my thoughts on how emerging technologies, particularly electric vertical takeoff and landing vehicles, are set to revolutionise urban mobility.
For decades, cities worldwide have struggled with a fundamental challenge: how to move millions of people efficiently and sustainably within limited space. In London, we faced this head-on, implementing innovative solutions like the congestion charge and investing heavily in public transport infrastructure. Yet, despite these efforts, the car remains a dominant mode of transport for many urban dwellers.
The root of this problem lies in the finite nature of road space. As cities grow denser and more populous, the competition for this limited resource intensifies. Buses, cyclists, pedestrians, and an ever-growing array of delivery vehicles all vie for their share of the road. This congestion impacts individual journey times while also affecting a city’s overall economic attractiveness.
Journey Time Reliability and the Promise of EVTOL Technology
One metric that often goes unnoticed in discussions about urban transport is journey time reliability. It’s not just about how quickly you can get from point A to point B, but how consistent the time is when you make that trip. This consistency is crucial for a city’s competitiveness and livability. After all, what good is a fast transport system if you can’t rely on it to get you to work on time?
This is where the exciting potential of electric vertical takeoff and landing vehicles comes into play. For over a century, the idea of flying cars has captured our imagination. Now, thanks to advancements in electric propulsion and artificial intelligence-driven control systems, this science-fiction dream is on the cusp of becoming reality.
EVTOL technology offers a tantalising solution to the urban mobility conundrum. By utilising the three-dimensional space above our cities, we can potentially alleviate ground-level congestion while providing a fast, efficient mode of transport. These vehicles promise to be cleaner and quieter than traditional aircraft, making them more suitable for urban environments.
The Integration Challenge
However, integrating eVTOL vehicles into existing urban transportation networks is not without its challenges. We need to consider:
— Infrastructure development: Cities will need to create networks of vertiports — dedicated takeoff and landing areas for eVTOL vehicles.
— Air traffic management: We’ll need sophisticated AI-driven systems to manage the complex choreography of ground and air traffic.
— Safety and regulation: Stringent safety standards and regulatory frameworks will be crucial to ensure public trust and safety.
— Noise and environmental impact: While quieter than helicopters, the widespread use of eVTOL vehicles will still have acoustic and visual impacts on urban environments.
— Accessibility and equity: We must ensure that this new mode of transport doesn’t become an exclusive service for the wealthy, but rather integrates with and enhances existing public transport systems.
The successful integration of eVTOL technology into urban mobility systems will heavily rely on artificial intelligence. AI will be crucial in managing the complex, three-dimensional traffic patterns that will emerge when we add a significant number of flying vehicles to our urban airspace.
Moreover, AI will play a vital role in optimising routes, managing energy consumption, and ensuring safety through predictive maintenance and real-time monitoring of vehicle and environmental conditions. The synergy between eVTOL technology and AI has the potential to create a truly smart, efficient, and responsive urban mobility system.
Imagine a future where your daily commute involves taking an electric flying taxi from a nearby vertiport, bypassing ground traffic entirely. This isn’t a far-off dream. It could be a reality within the next decade. Companies are already testing eVTOL prototypes, and cities like London are beginning to plan for the infrastructure needed to support this new mode of transport.
However, it’s important to note that eVTOL vehicles are not a silver bullet for all urban mobility challenges. They will be part of a broader, integrated transport ecosystem that includes traditional public transport, cycling, walking, and ground-based vehicles. The key to success will be in creating seamless connections between these various modes of transport.
Embracing the Three-Dimensional City
It’s time to expand our thinking beyond the two-dimensional constraints of road networks. The integration of eVTOL technology represents a shift toward truly three-dimensional urban planning.
This transition won’t happen overnight, and it will require close collaboration between city planners, technology companies, regulators, and citizens. But the potential benefits — reduced congestion, improved air quality, and enhanced urban mobility — make it a journey worth undertaking.
The future of personal urban mobility is about more than just getting from A to B faster. It’s about reimagining our cities as dynamic, three-dimensional spaces where ground and air transportation seamlessly intertwine. It’s an exciting prospect, and one that I believe will fundamentally transform the way we live, work, and move in our cities.
Read more:
The Sky’s the Limit: The Future of Urban Mobility in Global Cities by Lord Kulveer Ranger, Vice-chair AI All Party Parliamentary Group