GLOBAL URBAN AIR MOBILITY MARKET
The urban air mobility may help to improve a multimodal transportation system. As urban transportation takes to the skies, sustainable city growth becomes conceivable, and loved ones are no more as far away as they once were.
Advances in autonomous flight technology and 5G wireless communications networks, and there is a need to cut carbon emissions and decongest roads in densely populated cities, have paved the way for urban air mobility (UAM), most commonly in the form of commercial passenger and logistics drone amenities in minimal airspace.
UAM (Urban Air Movement) refers to the development of urban mobility into a third dimension: the air. Even if we have only experienced taxis upon that main road until now, (passenger) drones are gradually gaining access to the sky as a new means of transportation. This might alleviate the load on many chronically overworked infrastructures, like those in fast increasing cities.
Cities such as Dubai, Singapore, Los Angeles, and Dallas have long experimented with Urban Air Mobility programmes. UAM companies are presently faced with the difficulty of identifying the best solution for each application.
This is due to the rapid advancement of electrical drives, unmanned aerial vehicle future technologies, and 5G telecommunications infrastructure, which are forming the commonly used programming foundation of all commercial airline drone amenities.
GLOBAL URBAN AIR MOBILITY MARKET DEVELOPMENTS AND INNOVATIONS
|S No||Overview of Development||Development Detailing||Region of Development||Possible Future Outcomes|
|1||New drone policy will augment vertical aviation, urban air mobility: BLADE India||The government’s new drone policy, announced last month, is not only going to encourage the adoption of drones in India, but is also expected to push the growth of the urban air mobility segment in India||Global Scale – India||This would enhance better Technologies and production|
GLOBAL URBAN AIR MOBILITY MARKET DYNAMICS
The growing urbanization and traffic condition in megacities is pushing ground transportation systems to their limitations. Integrating urban mobility into the third dimension has the potential to happen in a more efficient, cleaner, safer, and connected transportation network.
Autonomous aerial vehicles or flying automobiles are no longer science fiction: projects and experiments are underway all over the world. FEV, along with major aircraft and car manufacturers, local governments, and technology businesses, is working on novel urban transportation technologies.
There is also a requirement for more effective logistics options. For example, with the advent of e-commerce, corporations like as Amazon and delivery fleets such as UPS, which received FAA certification to fly a fleet of drones in 2019, there seems to be a huge demand for the usage of functional cantered drones for commercial cargo.
They can, however, be beneficial for social programs such as crash investigation, emergency response, and environmental control.
Cities now house half of the world’s population and account for more than 80% of global GDP. Cities suffer diseconomies including such congestion and pollution, which begin to balance scale benefits, resulting in a declining quality of life and a loss of economic vitality in the absence of skilled planning and inventive, smart solutions.
As a result, cities are clamouring for cost-effective and efficient mobility solutions. One of the primary solutions will be several use cases within UAM such as inter- and intracity transport of people and products, special missions such as air ambulance, emergency supply delivery, organ transfer, or search and rescue support.
GLOBAL URBAN AIR MOBILITY MARKET SEGMENTATION
The Global Urban Air Mobility Market can be segmented into following categories for further analysis.
Urban Air Mobility Market By Application
- Passenger Transportation
- Freighter Transportation
Urban Air Mobility Market By Product Type
- Piloted Product
- Autonomous Product
- Hybrid Product
Urban Air Mobility Market By Technology Focus Type
- Inter City Technology
- Intra City Technology
Urban Air Mobility Market By Architecture Type
- Rotary Wing Architecture
- Fixed Wing Architecture
Urban Air Mobility Market By Regional Classification
- Asia Pacific Region – APAC
- Middle East and Gulf Region
- Africa Region
- North America Region
- Europe Region
- Latin America and Caribbean Region
RECENT TECHNOLOGICAL TRENDS IN GLOBAL URBAN AIR MOBILITY MARKET
The primary goal of urban air mobility is to enhance intracity transit, hence relieving pressure on existing urban mobility alternatives.
Due to the scarcity of high-powered, lightweight lithium-ion batteries and the infrastructure required to set up charging points for these batteries, the majority of autonomous aircraft manufacturers are still in the research and development phase, leaving only a few players to deploy their autonomous aircraft for intracity transportation.
There has been inclusion of new technologies which includes the autonomy and sensor integrations. The MATRIX autonomous flying system is based on systems intelligence and has military and commercial uses. Depending on circumstances and the use of autonomous flying, it enables for zero, one, or two pilots to assume control of the aircraft.
When it comes to civilian/commuter transportation, all a pilot needs to do is interact with air traffic controllers and keep an eye out for unforeseen scenarios.
Urban Air Mobility is inducing the usage of electric propulsion within the aircraft technologies. Electric propulsion has its own set of constraints and advantages for UAM. While range is still a problem, electrical propulsion on aeroplanes offers for positioning flexibility that a propeller doesn’t really.
Instead of extending wires to a mechanical gearbox, electric propulsion allows for greater flexibility in respect of component placement. Electric propulsion additionally benefits from recent battery innovations, such as solid-state electrodes as compared to liquid or polymer electrolytes in lithium-ion batteries.
URBAN AIR MOBILITY MARKET COMPETITIVE LANDSCAPE
As the volume of on-road passenger vehicles increases year after year, so do traffic capacity issues. The rising quantity of traffic on the roadways, particularly during peak hours, greatly increased travellers’ time spent travelling by vehicle.
Most nations’ present road infrastructure are incapable of handling peak-hour traffic without requiring commuters to wait in the queue. This not only wastes citizens’ time, but also puts governments in jeopardy. Furthermore, rising on-road passenger car volumes that use fossil fuels pollute the environment significantly.
Airbus has been involved in development of the Urban Air Mobility requirements in the market. City Airbus NextGen was designed subsequent years of continuous research and development, such as the successful production of two electric eVTOL prototypes, City Airbus and Vahana, as well as techniques to develop sound pollutants spanning Airbus’ product portfolio.
The City Airbus NextGen idea is an all-electric, four-seat vertical take-off and landing (eVTOL) multicopter with a wing. It has an 80-kilometer range and a cruising speed of 120 kilometres per hour, making it ideal for zero-emission flying operations in big cities.
Lilium is involved in developed of eVTOL based urban air mobility solutions for the market. Lilium’s Florida air mobility network is a collaboration with the global infrastructure operator Ferrovial, which plans to establish an inter-city transportation hub in Orlando in the heart of the Sunshine State’s tourism industry.
This Munich-based firm is preparing to open regional air mobility vertiports in Bavaria and Orlando, Florida, utilising its seven-seat eVTOL Lilium Jet and its five-seat eVOTL Lilium Jet.
The Seeker is an electric fixed wing/VTOL hybrid aircraft developed for commercial aerial autonomy. It has a long endurance capacity of more than three hours of flying time without the need for a battery replacement, supports numerous cargo configurations, and has a peak speed of more than 60 miles per hour.