Four projects intended to study potential AAM use cases and guide Michigan lawmakers as they regulate the industry have received a total of $6.25 million in funding. AAM is an umbrella term used by the FAA to denote new forms of passenger- and cargo-carrying aircraft, from drones to electric vertical takeoff and landing (eVTOL) air taxis.

The $2.6 million will be allocated to electric aircraft and charging station developer Beta Technologies. The remaining funds will be divided among drone infrastructure developer Skyports ($512,000); Traverse Connect, the economic developer for the state’s Great Traverse region ($689,500); and Michigan Central, a transportation technology campus located in Detroit ($2.45 million).

The money comes from the Michigan AAM Activation Fund, which has the combined backing of the state’s Department of Transportation (MDOT), Office of Future Mobility and Electrification (OFME), and Economic Development Corporation (MEDC). The fund aims to prepare Michigan for the arrival of AAM aircraft by coordinating state agencies.

“Advanced air mobility is an incredible economic opportunity for the state of Michigan,” said Gilchrist. “These investments create high-tech jobs, grow cutting-edge businesses, and enhance quality of life for our residents. These innovative advancements will elevate the way our companies operate, making air transportation more efficient and changing the way we move both people and cargo.”

Added Bradley Wieferich, Michigan state transportation director: “This new investment complements the state’s strategy to find safe and cost-efficient ways to capitalize on a robust network of aviation infrastructure serving Michiganders today.”

Beta will use its $2.6 million appropriation to install electric aircraft chargers statewide, including at Cherry Capital Airport (KTVC), Capital Region International Airport (KLAN), West Michigan Regional Airport (KBIV), and Willow Run Airport (KYIP).

The company is developing systems that adhere to the combined charging standard (CCS), a set of design protocols endorsed by Beta, the General Aviation Manufacturers Association (GAMA), and other manufacturers such as Archer Aviation and Boeing’s Wisk Aero. So far, Beta has about 20 chargers installed and online in the Eastern U.S., with another 50 or so in the construction or permitting process.

Skyports will use its money to launch a trio of proof-of-concept, ship-to-shore drone delivery services in the cities of Sault Ste. Marie and Detour Village, in partnership with local shipping provider Interlake Steamships. The ships will be anchored while drones arrive to pick up deliveries.

Traverse Connect, with an assortment of partners, will examine the use of drones to deliver critical medical supplies to rural areas, which typically have less access to the U.S. healthcare system. The drones will also be deployed for marine surveying, water sampling and testing, bathymetric mapping, and emergency response in the Lake Michigan area.

Michigan Central, meanwhile, has been tasked with improving Michigan’s recently announced advanced aerial innovation region, an urban campus that was opened to bring AAM companies and jobs to the state. It will also work alongside Brooklyn’s Newlab, a technology center best known for revitalizing the Brooklyn Navy Yard, to test beyond visual line of sight (BVLOS) drone use cases across building inspection, cargo delivery, and medical delivery.

“Michiganders have always been pioneers in the mobility space, and now we’re taking to the skies, finding new ways to use next-generation transportation to deliver critical resources like medical supplies and food, reinforcing international partnerships and cross-border collaboration, and so much more,” said Justine Johnson, Michigan chief mobility officer.

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On Monday, the Air Force Research Laboratory (AFRL) announced that it and the Air Mobility Command (AMC), which provides aerial refueling and airlift services for U.S. forces worldwide, began testing a UAS traffic management (UTM) system at MacDill Air Force Base in Florida.

The system, called CLUE, or Collaborative Low-Altitude Unmanned Aircraft System Integration Effort, is designed to integrate UAS flights next to crewed aircraft above and around Air Force installations. According to the AFRL, MacDill is the first base to use a UTM system in airspace overseen by Department of Defense air traffic controllers.

“This is a significant milestone for AMC, AFRL, and the CLUE program, as the MacDill Air Traffic Control Tower and Base Defense Operations Center are first in the Air Force to operationally assess UTM capabilities,” said Phil Zaleski, manager of the AFRL CLUE program.

CLUE was born out of the AFRL’s Information Directorate as a project meant to provide “air domain awareness, situational awareness, and UTM operational capabilities for UAS operators, air traffic control [ATC] personnel, Security Forces and other stakeholders.”

The system arrived at MacDill in 2022, where initial testing focused on airspace deconfliction, communication, and security. The goal was to enable drone flights beyond the visual line of sight (BVLOS) of the operator, which are heavily scrutinized and restricted by the FAA.

Since then, the UTM platform has been developed to give air traffic controllers a three-dimensional view of UAS activity and make it possible to grant flight permissions automatically.

“Equipping airspace managers and UAS operators with a 3D operational viewing capability and additional features designed to reduce lengthy manual and advanced planning procedures will be critical to achieving real-time flight planning and mission execution,” said James Layton, chief of plans and programs at MacDill.

The system is also sensor-agnostic, meaning it integrates with an array of different sensors designed to detect, track, and identify drones, including a counter UAS system being tested at MacDill.

The Air Force in May began formally testing CLUE’s capabilities on the base, opening it to the site’s ATC tower, Defense Operations Center, and airfield management team. Personnel so far have used the system to plan the intent of UAS flights or let operators know where they are approved to fly a drone, for example.

Operators ask CLUE for the all clear to fly, and their request is either approved or denied by the control tower. Once permission is granted, they can fly within a bounded area. CLUE feeds the operators information about the airspace and other nearby aircraft, helping them stay within the approved zone while avoiding other drones.

The UTM system has also been installed at Eglin AFB’s Duke Field (KEGI) in Florida, where the AFRL conducted a demonstration of its capabilities in 2023. There, CLUE will begin by integrating flights of small UAS (weighing less than 70 pounds) before moving to larger designs, including electric vertical takeoff and landing (eVTOL) air taxis such as Joby Aviation’s five-seat S4.

Joby, partnering with AFWERX, the Air Force’s innovation arm, earlier this year committed to deliver two air taxis to MacDill and has also shipped a prototype aircraft to Edwards AFB in California.

MacDill in May also hosted flights of a KC-135 Stratotanker equipped with an autonomous flight system from developer Merlin Labs, which is designed to one day enable fully remote flights. That technology, as well as systems from fellow AFWERX collaborators Xwing and Reliable Robotics, could one day be integrated into the CLUE UTM.

AFWERX and the AFRL are not the only government entities studying UTM systems. The Air Force is working with NASA to build a digital operations center for drones and electric air taxis nationwide and is collaborating with the FAA to integrate novel and uncrewed aircraft with air traffic control and other systems within the national airspace.

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The company believes these were the first such deployments for an electric aircraft with major commands of the Air Force.

The on-base and cross-country missions with the Air Combat Command (ACC) and Air Mobility Command (AMC) included daylong and even multiday exercises. Beta characterized them as “real-world” missions that were conducted at the behest of the ACC and AMC, with a little help from AFWERX, the Air Force’s innovation arm with which the manufacturer has worked since 2019.

The goal of these flights was to see how Beta’s Alia, a conventional takeoff and landing (CTOL) design, could support defense use cases such as resupply, cargo delivery, and personnel transport, including during combat. The aircraft seats up to five passengers and has a range of 250 nm.

Alia took off from Beta’s headquarters at Burlington International Airport (KBTV) in Vermont and embarked on a series of cross-country flights before arriving at the Air National Guard’s Alpena Combat Readiness Training Center (CRTC) in Alpena, Michigan. There, with the ACC, the aircraft completed a four-day exercise.

Over the course of 24 flight hours, Alia moved more than 2,200 pounds of cargo—including 500 pounds at a time—delivered meals and equipment, simulated a medical evacuation between two bases, and filled in for a Lockheed C-130 Hercules that had a scheduled airlift canceled.

“We can be ready to take off in a matter of minutes, and the battery has a low center of gravity, which is not affected by the way you load the cargo,” said Ross Elkort, flight test engineer for Beta.

The next stop for Alia was Springfield, Ohio, where a pilot for UPS Flight Forward completed a ground school program, simulator training, and evaluation flight. Flight Forward in 2021 placed an order for the electric vertical takeoff and landing (eVTOL) variant of Alia.

After that came a simulation of planned Alia routes in Virginia and a joint demonstration at Atlantic City International Airport (KACY) in New Jersey alongside the FAA, AMC, and others.

The AMC helped finish out the campaign with a series of flights between Dover Air Force Base in Delaware (KDOV) and McGuire Air Force Base (KWRI) in New Jersey, which are considered key hubs for military logistics. During a daylong exercise, AMC pilots flew Alia five times, delivering multi-hundred-pound payloads and slashing delivery times by more than half.

“It brings key innovation to the mission. It’s going to make things faster and simpler,” said Alyxandra Scalone of the Air Force’s 305th Maintenance Squadron at Joint Base McGuire-Dix-Lakehurst. “Dover (AFB) is about two and a half hours away from us. Today’s flight only took 45 minutes.”

Over the course of the monthlong campaign, Beta said it deployed Alia with a 100 percent success rate.

Beta has worked with AFWERX through its Agility Prime division, which focuses on vertical lift technologies, since 2020.

Beta last year installed the first electric aircraft charger at a Department of Defense site at Eglin Air Force Base in Florida. The Alia eVTOL in 2021 became the first electric aircraft to receive military airworthiness approval for human flight.

The CTOL, meanwhile, was responsible for the first airman flight of electric aircraft and was the first of its kind to complete an Air Force deployment: a three-month campaign at Eglin’s Duke Field (KEGI) and Robins Air Force Base (KWRB) in Georgia.

From October to January, it completed what Beta claims to be the first simulated casualty evacuation and first live military exercise with an electric aircraft. The latter saw Alia fly alongside 350 airmen, demonstrating how the aircraft could integrate with existing military operations.

Meanwhile, in April, the Alia eVOL completed its first crewed transition from hover to forward flight, a key stage in that model’s development. The vertical lift version of Alia has received less attention than its counterpart, but AFWERX has shown interest in the configuration, working with eVTOL manufacturers such as Archer Aviation and Joby Aviation.

If all goes according to plan, the CTOL version of Alia will hit the market in 2025, followed by the eVTOL in 2026. The aim, however, is for the military to get its hands on the aircraft first.

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On Friday, Southwest and Archer Aviation, manufacturer of the Midnight electric vertical takeoff and landing (eVTOL) air taxi, signed a memorandum of understanding (MOU) to develop a network of routes connecting Southwest terminals at California airports.

The airline is the state’s largest air carrier and owns key hubs in Los Angeles, San Diego, Sacramento, and the San Francisco Bay Area, where Archer recently announced plans to construct eVOL infrastructure, such as takeoff and landing vertiports, at five airports.

Archer’s flagship aircraft, which takes off and lands like a helicopter but flies on fixed wings like an airplane, is designed for a pilot to fly as many as four passengers on 20 to 50 sm (17 to 43 nm) air taxi routes, cruising at up to 150 mph (130 knots).

As soon as next year, it will begin ferrying customers to and from airports at a price the manufacturer claims will be cost-competitive with ground-based rideshare services such as Uber or Lyft.

“Integrating Archer’s electric aircraft into the travel journey potentially gives us an innovative opportunity to enhance the experience of flying Southwest,” said Paul Cullen, vice president of real estate for the airline.

Cullen also left the door open for an expansion of Southwest’s air taxi service to locations in other states.

Added Dee Dee Meyers, senior adviser to California Governor Gavin Newson and director of the Governor’s Office of Business and Economic Development: “This initiative is designed to help revolutionize clean transportation with zero-direct emission and affordable options, enhancing the passenger experience, and supporting California’s climate action goals.”

The agreement with Southwest builds on Archer’s existing relationship with United Airlines, which in 2021 agreed to purchase 100 Midnight air taxis for an estimated $1 billion. Under that agreement, Archer will develop a software platform, mobile booking platform, and vertiport integration technology for a commercial service operated by United.

Delta Air Lines, the third major U.S. carrier with plans to launch an air taxi network, is working with Archer competitor Joby Aviation.

In addition, Archer in June signed a deal with Signature Aviation that would give it access to more than 200 FBOs, including those at New York Liberty International Airport (KEWR), Chicago O’Hare International Airport (KORD), and other airports the company intends to serve. The manufacturer also has an agreement with FBO network operator Atlantic Aviation to electrify Atlantic terminals in New York, Los Angeles, Miami, and San Francisco.

“With Archer’s Midnight aircraft, passengers will be able to fly above traffic to get to the airport faster,” said Nikhil Goel, chief commercial officer of Archer. “Southwest customers could someday complete door-to-door trips like Santa Monica [California] to Napa in less than three hours.”

Archer and Southwest will begin by developing a concept of operations for Midnight out of Southwest terminals, partnering with airline employees and union groups such as the Southwest Airlines Pilot Association (SWAPA).

The companies “plan to collaborate over the next few years as eVTOLs take flight,” which does not commit them to a 2025 or 2026 launch. Archer, Joby, and other eVTOL manufacturers such as Beta Technologies and Overair intend to enter commercial service during that time frame.

Adding Southwest as a partner could be key for Archer when considering the activities of its competitor overseas.

Both firms plan to fly in the United Arab Emirates, including the cities of Abu Dhabi and Dubai. In February, however, Joby signed what it describes as an exclusive six-year deal with Dubai’s Road and Transport Authority, giving it the sole right to operate an air taxi service in the emirate. Archer CEO Adam Goldstein has disputed the exclusivity of the agreement, saying it will have no impact on the company’s plans.

That dynamic has not yet played out in the U.S.—both companies plan to fly in New York, for example. But if Joby intends to replicate the strategy of gaining an edge over competitors with exclusive deals, partnerships such as that with Southwest become more important.

Notably, the companies have also butt heads on eVTOL infrastructure. Each is pushing for a different electric aircraft charging system to become the industry standard, similar to how Elon Musk fought for Tesla’s North American Charging Standard to supplant the widely accepted Combined Charging Standard (CCS) for electric ground vehicles (a fight Tesla ultimately would win).

Similarly, Joby wants its Global Electric Aviation Charging System (GEACS) to replace a modified version of the CSS supported by Archer, Beta, and others, which could throw a wrench into their FBO electrification plans.

Among eVTOL manufacturers, Archer and Joby are the closest to being able to fly in the U.S. Each has achieved a full transition flight using a prototype air taxi and expects to begin the critical for-credit phase of FAA certification in the coming months.

In addition, both are qualified to perform eVTOL maintenance and repairs and are in the process of training an initial group of pilots to fly their respective aircraft.

The goal is for those activities to be complete in time for a 2025 launch. Whether Southwest will be a part of that occasion remains to be seen.

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On June 24, the firm’s “first-of-its-kind” hydrogen-electric, vertical takeoff and landing (hVTOL) demonstrator completed a 532 sm (462 nm) flight—about the distance between San Francisco and San Diego—above Marina, California, home to the Joby’s test facility and pilot production line. The aircraft landed with more than 10 percent of its hydrogen fuel remaining, with water the only byproduct of the flight.

Joby believes the test, which included a vertical take off and landing, represented the first forward flight for a liquid hydrogen-powered eVTOL aircraft. The company said hydrogen is a key piece of its future plans.

“We’re excited to now be building a technology stack that could redefine regional travel using hydrogen-electric aircraft,” said JoeBen Bevirt, founder and CEO of Joby. “Imagine being able to fly from San Francisco to San Diego, Boston to Baltimore, or Nashville to New Orleans, without the need to go to an airport and with no emissions except water. That world is closer than ever.”

The development signals a shift in Joby’s stated business philosophy, which before Thursday was centered around flying urban air mobility (UAM) routes within cities.

In a blog post penned by Bevirt and Raffaele Russo, business manager for new technologies at Joby, the company’s top brass said regional air mobility (RAM) is also on the agenda. The firm has alluded to a regional service before, but Thursday’s developments appear to confirm that one is in the works.

“Although the specific energy of batteries is improving, their weight will continue to limit the application of electric aircraft to short-distance travel,” the blog post reads. “To serve regional markets, we plan to use hydrogen to increase the potential range and payload of electric aircraft.”

Joby’s hydrogen-electric program builds on the technology developed by its subsidiary H2FLY, acquired in secret in 2021.

The manufacturer built the hydrogen-electric demonstrator by modifying one of its battery-electric aircraft, which has already flown more than 25,000 miles, with a hydrogen fuel tank capable of storing up to 40 kilograms of liquid, supercooled hydrogen. It includes a smaller battery cell, which provides extra power during takeoff and landing.

The design employs the same airframe and overall architecture as its battery-electric counterpart. It will use the same takeoff and landing sites and operations team, as well as ElevateOS—a proprietary, Uber-like software suite unveiled in June.

ElevateOS comprises a pilot app, rider app, operations suite, and matching system that connects riders with aircraft based on departure time, arrival time, and location. It includes an integration with the Uber app, allowing Uber customers to book Joby flights and vice versa.

The hydrogen-powered model also includes the H2F-175 hydrogen fuel cell, built by H2FLY, which produces electricity and heat with water as the sole byproduct. The fuel cell powers the aircraft’s six electric motors, which feed into tilting propellers that assist in both hover and forward flight, and charges the batteries while they are deactivated in cruise mode.

The technology was deployed about one year ago during a milestone H2FLY flight, which Joby claims was the first crewed flight of a hydrogen-electric aircraft with a runway takeoff.

According to Joby’s estimate, the hydrogen-electric model will have a greater payload than a battery-electric design or an aircraft using an equivalent amount of jet fuel.

Bevirt is also bullish on hydrogen production, pointing to the U.S. Department of Energy’s $7 billion investment in clean “hydrogen hubs.” He noted that hydrogen can be produced using a variety of low- or zero-emission sources such as wind or water power, which could help the aviation industry meet commitments to eliminate emissions by 2050.

“We recognize that broadly commercializing hydrogen will require doing the hard miles on regulation and infrastructure, along with fuel storage and distribution, but we have demonstrated that regional hydrogen-electric flight is possible today,” Bevirt and Russo wrote in Thursday’s blog post.

Bevirt said the bulk of the work Joby has done to certify its flagship, battery-electric air taxi will carry over to commercializing a hydrogen-electric variant. The company’s hydrogen-electric activities are supported by Agility Prime, the vertical lift technology division of the U.S. Air Force innovation arm, AFWERX.

“Agility Prime has been very supportive of hydrogen-powered aircraft development and testing as it aligns with the program’s goals to advance transformative vertical lift technologies and broader Department of Defense operational energy goals of energy substitution and diversification, and energy demand reduction,” said Jacob Wilson, acting branch chief of Agility Prime.

Joby is also collaborating with AFWERX’s Autonomy Prime division, which, as the name implies, develops self-flying aircraft.

The company in June acquired autonomous flight company Xwing for an undisclosed fee and intends to build a self-flying version of its flagship air taxi in the future, using Xwing’s Superpilot software. U.S. competitor Wisk Aero and Chinese eVTOL manufacturer EHang are among the handful of firms looking to fly autonomous air taxis at launch.

Joby aims to launch commercial operations with its flagship battery-electric air taxi in 2025, in partnership with Delta Air Lines. New York and Los Angeles are slated as the company’s first U.S. markets.

The aircraft is designed for a pilot to fly as many as four passengers on trips up to 100 sm (87 nm), cruising at 200 mph (174 knots). In the U.S., Joby will operate the model itself.

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Munich-based manufacturer Vaeridion on Saturday opened its electric battery development lab at the Bosch Collaboration Campus in Holzkirchen, Germany. The site, located in the Munich suburbs, grants Vaeridion access to hardware and services from Bosch General Aviation Technology—the GA arm of the multinational engineering firm—and ITK Engineering, which Bosch acquired in 2016.

Vaeridion will use the campus to develop powertrains, battery models, and cybersecurity compliance for its digital systems, as well as test and integrate its proprietary high-voltage batteries for its flagship Microliner. The facility will run the gamut of battery manufacturing steps, from individual cells to fully integrated modules.

In addition to Vaeridion co-founders Ivor van Dartel and Sebastian Seemann, the opening of the center was attended by Bavarian State Government Minister Florian Herrmann and Holzkirchen Mayor Christoph Shmid.

“Bavaria is proud of its vibrant startup scene, which benefits from the excellent ecosystem of science, research and technology-passionate policies,” said Herrmann. “Sustainable e-mobility is a future topic with a global market—the development of a battery-powered microliner is therefore a brilliant idea.”

According to a 2018 study, more than 80 percent of Germany’s population lives within 20 kilometers of a regional airfield. Vaeridion’s flagship Microliner is designed to connect those sites and provide a new option for underserved regions, saving customers multiple hours per trip, the company claims. It can also take off and land at large commercial airports.

The aircraft’s glider-inspired wing features a high aspect ratio, minimizing drag in cruise and producing a high glide ratio. The batteries, which can be charged in about 45 minutes, are integrated there rather than in the fuselage to optimize the aircraft’s weight and travel distance, Vaeridion says. The manufacturer claims its design flies with the lowest energy consumption for an aircraft seating up to nine passengers plus crew for distances up to 500 km (310 miles).

Working with Aircraft Design Certification GmbH, which owns design organization approval (DOA) from the European Union Aviation Safety Agency (EASA), Vaeridion hopes to certify the model as a GA aircraft before 2030.

By that year, the manufacturer intends to introduce the Microliner on commercial routes in Denmark in partnership with Copenhagen AirTaxi and Copenhagen Helicopter, both based out of Roskilde Airport (EKRK) in Copenhagen. The companies believe the design will be part of a digital platform that allows customers to plan, book, and pay for flights in one place.

“The new green aircraft type requires significantly shorter takeoff and landing distances than traditional aircraft, which allows the use of smaller airfields that are no longer utilized for commercial routes,” said Martin Winther Andersen, CEO of Copenhagen Helicopter. “These routes were abandoned as aircraft types gradually became larger. The Microliner can change that, allowing us to create a dense network of domestic routes again.”

In addition, Belgium and Netherlands-based operator ASL Group plans to utilize the aircraft for short-haul business routes. Aero-Dienst, the operation and maintenance provider for European automobile association ADAC’s fleet of ambulance helicopters, intends to deploy it for aircraft maintenance and air ambulance services.

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The company on Tuesday announced a partnership with California-based vertiport developer and operator Skyway Technologies to install eVTOL hubs in South Florida and Puerto Rico. The partners plan to release more information on locations and routes in those markets in the coming months, with plans to launch service in 2026.

“Our partnership with UrbanLink is advancing the industry towards launching operations in the United States,” said Clifford Cruz, CEO of Skyway.

Similar to a heliport, a vertiport allows an eVTOL aircraft to take off and land vertically, with additional infrastructure for electric charging. In addition to design and operation, Skyway provides vertiport services such as air traffic management and mission planning.

The partnership is UrbanLink’s second in as many months following an agreement with Texas-based Ferrovial Vertiports to build a network of hubs in South Florida and the Los Angeles metro area.

Both collaborations are intended to set the stage for Lilium Jet operations across networks linking the takeoff and landing locations. The sites are also meant to serve “the broader [advanced air mobility (AAM)] industry,” UrbanLink says.

“In order to finance and build the vertiports needed to support the AAM industry, it is crucial to have multiple partners,” said Ed Wegel, who founded UrbanLink earlier this year and serves as chairman. “We are impressed with Skyway’s understanding of our business and their commitment to delivering well-designed, safe, and efficient vertiports in the U.S. and Caribbean.”

The operator is eyeing a 2026 U.S. commercial launch, which is in line with Lilium’s projections for when its flagship Lilium Jet will be ready for service.

The manufacturer is so far the only company to receive certification bases from both the FAA and European Union Aviation Safety Agency (EASA) for a commercial eVTOL design. It intends to fly on both sides of the Atlantic, as well as in the Middle East.

The Lilium Jet is expected to cruise at 162 knots on city-to-city trips spanning 25 to 125 sm (22 to 109 nm). It uses a propulsion system seldom seen on eVTOL designs, with a pair of electric motors feeding 10 independent battery packs that power 36 electric ducted fans embedded in the aircraft’s fixed wings. These allow it to hover and take off vertically like a helicopter, with minimal noise production or impact on cruise performance, Lilium says.

By contrast, manufacturers such as Archer Aviation and Joby Aviation employ tilting rotors and propellers that aid in both vertical and forward flight.

The unique propulsion system underwent initial testing in June ahead of the Lilium Jet’s first crewed flight, expected later this year. The manufacturer began building its first production prototype aircraft, which will be used to validate the design with regulators, in December.

Since partnering in May, Lilium and UrbanLink have moved quickly to target eVTOL jet operations in South Florida—which is poised to be Lilium’s U.S. base of operations—Los Angeles, Southern California, and Puerto Rico. Announcements for additional locations are on the horizon, they said Tuesday.

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The Chinese firm on Monday announced it signed a memorandum of understanding (MOU) with China Southern Airlines General Aviation (CSGAC), the GA subsidiary of China Southern Airlines, which in 2023 ranked as one of the 10 largest public airlines by revenue. EHang and CSGAC will focus mainly on flight operations, infrastructure support, demonstrations, and the development of new use cases for the former’s flagship EH216-S.

Since the aircraft is self-flying, the partners will not need to worry about pilot training, a common concern among U.S. manufacturers of piloted eVTOL models. Boeing air taxi subsidiary Wisk Aero is one of the few U.S. manufacturers seeking to fly autonomously at launch.

EHang’s model is intended to be a part of China’s low-altitude economy, an analog to the advanced air mobility (AAM) industry taking shape in the U.S. and abroad.

“CSGAC is actively exploring expansion into the emerging low-altitude industry,” said Erbao Li, chairman of CSGAC. “This cooperation will create innovative archetypes for the low-altitude economy, unlocking new growth opportunities for the general aviation industry and driving the high-quality advancement of the low-altitude economy industry chain in the Guangdong-Hong Kong-Macau Greater Bay Area.”

The companies intend to create demonstration sites at Zhuhai Jiuzhou Airport (ZGSD) and Zhuhai Chimelong Ocean Kingdom, a popular theme park, that will serve as hubs for aerial tourism in Zhuhai and the surrounding Greater Bay Area.

“As a frontrunner in the eVTOL industry, we believe that the safe operations of pilotless eVTOL aircraft is crucial to the industry’s development,” said Zhao Wang, chief operating officer of EHang. “Together with CSGAC, we will establish demonstration sites for pilotless eVTOL operations in the Greater Bay Area and spearhead safe, sustainable, and efficient low-altitude operations.”

The partners will also look at potential island-hopping use cases for the EH216-S, including cargo transport, emergency response, and medical evacuations. CSGAC will help train EHang operational personnel, build vertiport infrastructure, develop a platform for flight services, and define maintenance standards.

The arrangement is somewhat similar to those between Archer Aviation and United Airlines and Joby Aviation and Delta Air Lines, for example.

Unlike Archer and Joby, EHang already has begun delivering aircraft to customers. In December, the EH216-S became the first eVTOL air taxi to complete a commercial flight, a feat made more impressive by the fact that the aircraft flies entirely on its own. It followed that in May with the Middle East’s first passenger-carrying eVTOL demonstration.

The two-passenger aircraft has a range of about 22 sm (19 nm) and cruises at about 80 mph (70 knots), making it smaller and less capable than most piloted eVTOL designs, such as Archer’s Midnight or Joby’s air taxi. While those companies are focused mainly on transportation to and from airports, EHang will prioritize out-and-back aerial sightseeing trips.

A wingless design, the EH216-S deploys a coaxial dual-propeller architecture, with eight foldable arms housing 16 lift-and-thrust rotors.

The Chinese manufacturer has received plenty of help, obtaining financial and regulatory support from local and regional governments, particularly those in the cities of Shenzhen, Guangzhou, and Hefei. Unlike the FAA or European Union Aviation Safety Agency (EASA), China’s Civil Aviation Authority (CAAC) wants to get autonomous aircraft in the skies first, perceiving them as safer than their crewed counterparts. EHang’s closest competitor is Autoflight, another manufacturer of self-flying eVTOL air taxis.

In addition to being the first to receive type certification, the EH216-S is also the first aircraft of its kind to be approved for airworthiness and mass production, which began in April. In February, the manufacturer revealed the price tag for the model: around $330,000, which, based on FLYING’s analysis, would make it one of the cheapest eVTOL air taxis on the market.

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XTI on Monday announced it signed a capital distribution agreement with investor FC Imperial Limited worth as much as $55 million, giving the firm a post-money valuation of around $275 million should the transaction go through.

“Assuming the completion of the proposed investment, we believe the additional capital will help accelerate the development of the TriFan through several major milestones, including completion of the updated preliminary design review along with launching the critical design review phase in preparation for the assembly of XTI’s Test Aircraft No. 1,” said Scott Pomeroy, chairman and CEO of XTI.

XTI, which is publicly traded on the Nasdaq, was borne out of a merger between manufacturer XTI Aircraft Company and Inpixon, a developer of real-time location systems. That transaction went through in March.

The company’s proprietary aircraft design has received patents in the U.S., Canada, Japan, China, and Europe. In 2019, a two-thirds scale prototype aircraft made its maiden voyage.

The TriFan design was inspired by the hummingbird using its wings to suspend itself in air while collecting nectar: fast, quiet, and able to hover. In the same way, the aircraft uses tilting fans to easily transition from hover to forward flight, much like the tiltrotors on the Bell Boeing V-22 Osprey or Leonardo AW609.

Unlike the cylindrical shape of most commercial airliners, the design takes the form of a bird in flight to provide lift, similar to the Boeing B-52 or Lockheed SR-71 Blackbird.

The TriFan seats a pilot and as many as six passengers. It can operate from a helipad, airport, or any “improved surface,” with no need for new infrastructure or airspace regulations.

Two massive ducted fans on either side of the aircraft’s fixed wing aid in hover and cruise flight, while a third rear fan—which stows during flight—provides power and stability during vertical takeoff. The fans are controlled using simple fly-by-wire controls and powered by a pair of turboshaft engines. The company says it will later switch to hybrid-electric and eventually full electric power to enable zero-emissions operations.

According to XTI, the aircraft’s 700 sm (600 nm) range from helipad to helipad—equivalent to the distance between Dallas and Denver or San Francisco and Portland, Oregon—is double that of most helicopters and seven times that of battery-only VTOL designs. It can also use its fans to perform a short takeoff and landing (STOL) from an airport runway for increased range (750 nm) and payload.

XTI says the TriFan’s 345 mph (300 knots) cruise speed is also twice that of a typical helicopter and will save passengers time compared to business jets and airliners. It will fly at around 25,000 feet and have a configurable fuselage for executive, commuter, and medical use cases.

At the same time, the aircraft is expected to be affordable. In 2021, XTI estimated that an eight-passenger TriFan configuration flying from Manhattan to John F. Kennedy International Airport (KJFK) would cost 80 cents per seat-mile, compared to $3.19 for the average eVTOL and $3 for the typical Uber ride.

The TriFan will be certified as a single-pilot design with IFR permissions, including flights in inclement weather. XTI is collaborating with AVX Aircraft Company on the aircraft’s design, development, and certification.

As of March, the company has a total of more than 700 conditional aircraft purchase agreements, non-binding deposit agreements, options, and letters of intent for the model.

Last month, regional airline Mesa Airlines, which works with United Airlines, placed a conditional preorder for up to 100 aircraft, the value of which XTI estimates at $1 billion. The firm also became an investor. The pending transaction represents one of the most significant so far for the young company.

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Test rides on the six-axis simulator are meant to simulate the flight of electric vertical takeoff and landing (eVTOL) aircraft in order to help NASA study turbulence on planned air taxi services in New York, Chicago, Los Angeles, and elsewhere in the U.S. The data will be shared with AAM industry partners to help them develop passenger-friendly designs.

The space agency is working with several major air taxi developers through its advanced air mobility (AAM) mission, including Archer Aviation, Joby Aviation, and Boeing eVTOL arm Wisk Aero, to research the experience and safety of riders as well as onlookers on the ground.

“The experiments in the ride quality lab will inform the advanced air mobility community about the acceptability of the motions these aircraft could make, so the general public is more likely to adopt the new technology,” said NASA test pilot Wayne Ringelberg.

Ringelberg served as the passenger for the comfort experiment. The pilot recently flew a series of test rides on the new simulator at NASA’s Armstrong Flight Research Center in Edwards, California, to help prepare it for trials with actual test subjects.

Ringelberg lifted off from a NASA-designed conceptual vertiport atop a downtown San Francisco parking garage, flying over the city to another virtual takeoff and landing site on top of a skyscraper. Sitting in a seat mounted on a six-axis platform that recreates the full range of motion of an air taxi ride, he wore headphones to simulate noise and VR goggles that gave him a view of the cockpit and the city below.

Following the flights, Ringelberg reported to NASA on how realistic and reliable the simulator’s movement and audiovisual cues were.

“This project is leveraging our research and test pilot aircrew with vertical lift experience to validate the safety and accuracy of the lab in preparation for test subject evaluations,” he said.

With Ringelberg’s work finished, the agency will soon begin testing with human subjects. They will similarly wear a VR headset and headphones, flying the same route as the NASA test pilot. During the flight, subjects will press a button to indicate discomfort.

The space agency will analyze those responses and try to match them to the user’s heart rate, breathing rate, and experience of motion or audiovisual stimulus. It will make that data available to air taxi manufacturers and other industry stakeholders to shape flight paths through cities, identify takeoff and landing spots, and guide air taxi design elements like window size and seat placement.

The air taxi simulator is the key component of NASA’s rider quality lab, but that project is itself only a tiny piece of the agency’s AAM mission.

It began using the term AAM in 2020 and has since worked with stakeholders across the industry on a wide range of projects. The initiative focuses on everything from air taxi safety and ride quality to travel time, automation, and infrastructure such as vertiports, preparing industries including healthcare, emergency response, and cargo delivery for the introduction of the novel aircraft.

Within the program is the Advanced Air Vehicles Program (AAVP), which focuses on innovative aircraft designs such as Revolutionary Vertical Lift Technology (RVLT). In addition to passenger comfort, NASA under the RVLT umbrella has studied air taxi batteries, noise, and traffic, particularly around busy airports like Dallas-Fort Worth International Airport (KDFW).

Urban air traffic management and the integration of eVTOL designs into air traffic control operations and the national airspace system is a major part of the space agency’s mission. It aims to complete its research in time for the U.S. to develop a robust air taxi industry by the end of the decade.

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