Vertiport Builder Skyports raises £5.35 Million in Series A Funding Round

09 December 2019 || 6 min read

The urban air mobility infrastructure provider announced the Series A funding round last week Skyports, an urban air mobility infrastructure provider and drone delivery operator, announced on December 5th that they’ve raised £5.35 million in Series A funding. The funding round was jointly led by Deutsche Bahn Digital Ventures (DBDV) and Groupe ADP. Levitate Capital also participated in this funding round following their seed...

Vertiport Builder Skyports raises £5.35 Million in Series A Funding Round

09 December 2019 || 6 min read

The urban air mobility infrastructure provider announced the Series A funding round last week

Skyports, an urban air mobility infrastructure provider and drone delivery operator, announced on December 5th that they’ve raised £5.35 million in Series A funding. The funding round was jointly led by Deutsche Bahn Digital Ventures (DBDV) and Groupe ADP. Levitate Capital also participated in this funding round following their seed investment in the company in January 2018.

Skyports’ mission is to “connect the world through our skies by building and operating critical infrastructure for urban air mobility and managing end to end drone deliveries” and is based in London, with projects in Asia, Africa, North America, and Europe.

This capital allows Skyports to continue its mission plan: acquire sites for passenger and cargo vertiports in cities around the world, including Singapore and Los Angeles, and develop said sites. Following the Singapore showcase of the world’s first passenger vertiport in October – the VoloPort – in partnership with air taxi manufacturer Volocopter, Skyports has received substantial interest from landlords in the city state and other cities around the world.

Duncan Walker, Chief Executive Officer of Skyports, commented on the recent close of the Series A round:

“We are delighted to welcome strategic investors with a long-term vision for the company. Our investors bring expertise in mobility, infrastructure and airport operations. Their significant balance sheets and strong leadership in their respective markets allow Skyports to consolidate its leading position in the industry in these early stages and through to permanent commercial operations in multiple markets.”

The inside of the Voloport in Singapore, the world’s first vertiport constructed to allow future air taxi riders the chance to better understand the customer experience of aerial mobility.

“Vertical take-off and landing (VTOL) vehicles are a new expression of airport activity – infrastructure, vehicle handling and passenger experience – and we are setting ourselves up to play a leading role in the development of Urban Air Mobility in the Paris Region and internationally through our 25 airports worldwide,” said Edward Arkwright, Deputy Chief Executive Officer of Groupe ADP. “This strategic partnership will allow us to develop a deeper understanding of the emerging VTOL market and will provide strong synergies through Skyports’ expertise in urban areas.”

The urban aviation market is anticipated to be worth $1.5 trillion by 2040, $850 billion of which due to passenger vehicles and $400 billion by the transportation of goods by drone, according to a Morgan Stanley study. Significant investment has gone into the vehicles and research and development enabling technology whilst urban air mobility (UAM) infrastructure is under-invested. Without the take-off and landing infrastructure in place, the nascent UAM industry will fail to realize its market and socio-economic potential.

DBDV and Groupe ADP will take seats on the Skyports Board. Skyports has the option for a second close in the Series A round in the near future.

Deutsche Bahn Digital Ventures

Deutsche Bahn Digital Ventures (DBDV) is the corporate venture capital unit of Europe’s largest passenger and cargo railway operator, Deutsche Bahn. DBDV invests in new data-based business models in the fields of smart mobility, smart logistics and smart cities which utilize Big Data, Artificial Intelligence (AI) or the Internet of Things (IoT). The start-ups are not only gaining venture capital, but also get access to experts, DBs data, customers and markets.

Groupe ADP

Groupe ADP develops and manages airports, including Paris-Charles de Gaulle, Paris-Orly and Paris-Le Bourget. In 2018, the group handled through its brand Paris Aéroport more than 105 million passengers and 2.3 million metric tonnes of freight and mail at Paris-Charles de Gaulle and Paris-Orly, and more than 176 million passengers in airports abroad through its subsidiary ADP International. Boasting an exceptional geographic location and a major catchment area, the Group is pursuing its strategy of adapting and modernizing its terminal facilities and upgrading quality of services; the group also intends to develop its retail and real estate businesses. In 2018, group revenue stood at €4,478 million and net income at €610 million.

Levitate Capital

Levitate Capital is a venture firm focused on next-generation air mobility. They see the coming revolution in how people use and experience aviation for transportation, logistics, and other use cases as one of the profound transformations of modern society. Their investments cover a broad range of ventures, from enabling systems that will let these craft fly electrically, autonomously, quietly and safely to building and operating the new air vehicles as well as business models that will complement aerial mobility networks of the future.

Why it’s important: This additional financial commitment to Skyports will allow the company to further advance its developments of vertiports across the world, and also reinforces the latent demand for construction of the infrastructure to support sustained, scaled commercial air taxi operations in the 5-10 year time frame. The unveiling of the Voloport in Singapore generated a significant buzz amongst industry members and the general public alike, as it was one of the first instantiations of a physical vertiport that allows individuals to understand what a potential customer experience of an air taxi flight would look and feel like. Expect Skyports to ascertain whether future additional funding is prudent, or whether the company devotes all focus to development of further refinements to their vertiport technology.

Urban Air Mobility at Amsterdam Drone Week 2019

08 December 2019 || 5 min read

Amsterdam Drone Week opened this week, and urban air mobility took center stage. The second annual Amsterdam Drone Week (ADW) took place on December 4th-6th this week, and provided a global venue for exchanging knowledge and expertise on current as well as future air mobility solutions, innovations, and essential regulations. RAI Amsterdam served as the focal point for top-level players, large...

Urban Air Mobility at Amsterdam Drone Week 2019

08 December 2019 || 5 min read

Amsterdam Drone Week opened this week, and urban air mobility took center stage.

The second annual Amsterdam Drone Week (ADW) took place on December 4th-6th this week, and provided a global venue for exchanging knowledge and expertise on current as well as future air mobility solutions, innovations, and essential regulations. RAI Amsterdam served as the focal point for top-level players, large and small, commercial and non-commercial, from various industries, knowledge institutes and authorized bodies to come together to create, innovate, and collaborate.

Philip Butterworth Hayes, the editor of Urban Air Mobility News, appropriately kicked things off: creating a vision not only of a world where drones provide an integral part of urban transportation systems – but where humans and robots establish a working relationship. “What do we want to achieve this week?” asked Hayes. “We need to achieve a closer understanding of the drone market and its potential, both in the short and long term.” If that isn’t enough of a challenge, Hayes says that Urban Air Mobility is nothing short of a revolution. UAM represents a complete change in thinking for cities. “We’re creating a new transportation ecosystem,” says Hayes. “The last time we did that was in 1945, when we started the commercial aviation industry.”

To discuss and brainstorm ideas for the new transportation ecosystem, Hayes moderated a roundtable discussion on “Reinventing Mobility” featuring key industry experts and innovators. The speakers included CMO Europe at EHang Andreas Perroti, Founder of AirMap Ben Marcus, Innovation and Deployment Director at ERTICO Dr. Johanna Tzanidaki, and Director New Business Ventures at Boeing Next John Damush. Boeing also hosted a handful of presentations on the Future of Airspace Management as well as Mobility & Sustainable Aviation.

In another address at ADW, Dr. Johanna Tzanidaki explained the “Internet of Mobility” and what that means for the future of drone transportation. ERTICO is focused on Intelligent Transport Systems, or ITS. ERTICO’s vision for mobility is a shared, digital, multi-modal and on-demand network. In practical terms, that means logging on to one system and determining the best and most convenient way to get from point A to point B: combining modes like bikes, cars, and drones as appropriate. Companies like BLADE are already providing services that combine multiple modes of transportation, and technology like that of ERTICO could be a solution that leads to further optimization.

ADW was also an opportunity for Avy to reveal its new long-endurance VTOL drone designed for lifesaving beyond visual line-of-sight (BVLOS) missions. The vehicle, named Aera, features modular payload capabilities, integrated avionics, and redundant communications, and will be used, amongst other things, in the Medical Drone Service pilot project, launched earlier this week. The Medical Drone Service will investigate safe and reliable transport of blood products and medicines between blood banks and hospitals over the next three years. During the exhibition, Avy performed live flight demonstrations in the drone arena on each day, and displayed the Aera in the showcase area. Founder Mr Patrique Zaman also hosted a humble talk on his success thus far with Avy and the future of Urban Air Mobility.

Why it’s important: Amsterdam Drone Week is seeing growing success in its ability to rally key industry leaders, regulators, and manufacturers together for the purpose of expediting a new transportation ecosystem safely and efficiently. It’s the continual efforts of conferences and gatherings like ADW that will ultimately shape the aerial mobility industry and aid in garnering the public’s acceptance.

Sources // dronelife; Amsterdam Drone Week

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Workhorse Finalizes Sale of SureFly to Moog Inc.

08 December 2019 || 4 min read

The Workhorse Group have officially let go of their Surefly and Horsefly to Moog Inc Workhorse Group, a US manufacturing company dedicated to manufacturing electrically powered delivery and utility vehicles, have sold the assets for their trademarked SureFly eVTOL to Moog Inc as well as all related hybrid electric power system technologies. The two transactions, for the SureFly and HorseFly, were...

Workhorse Finalizes Sale of SureFly to Moog Inc.

08 December 2019 || 4 min read

The Workhorse Group have officially let go of their Surefly and Horsefly to Moog Inc

Workhorse Group, a US manufacturing company dedicated to manufacturing electrically powered delivery and utility vehicles, have sold the assets for their trademarked SureFly eVTOL to Moog Inc as well as all related hybrid electric power system technologies. The two transactions, for the SureFly and HorseFly, were finalized on October 1, 2019, with the closings taking place on November 27, 2019. According to Workhorse CEO Duane Hughes:

Building strong relationships through partnerships and transactions with world-class operators like Moog has always been a key area of focus for our company. In selling SureFly, we have been able to monetize a secondary asset, which will provide us with additional working capital for our core business, which is the manufacturing of electric last-mile delivery vehicles.

Moog Inc. acquired the SureFly eVTOL in one of their transactions with Workhorse Group.

In a second separate transaction, the company also entered a joint venture with Moog Inc concerning Workhorse’s HorseFly “last mile delivery” Aerial System. Under the new agreement, Workhorse and Moog will each own 50% of the equity interests in the newly formed joint venture. Workhorse will contribute assets and material related to the HorseFly, while Moog will contribute complementary assets, intellectual property (IP) and other related technology. According to Workhorse, the purpose of the new joint venture is for the purpose of sharing and advancing technology and intellectual properties related to the development of unmanned aerial systems, or UAS.

The HorseFly drone delivery system.

On the new joint venture, Hughes said:

Through our HorseFly [Joint Venture], we’re looking forward to taking another existing Workhorse technology and leveraging the experience and resources of an established enterprise to tackle new markets and create outcomes there are greater than just the sum of the parts.

For additional details regarding the transactions, please reference the Form 8-K filed with the U.S. Securities and Exchange Commission on December 4, 2019.

Why it’s important: With Workhorse Group having monetized their assets in the SureFly and HorseFly, Moog Inc. will now have a chance to see if the SureFly and HorseFly will hold any promise in the aviation industry. Workhorse previously predicted that future applications of the SureFly could be in “precision agriculture, urban commutes, emergency response, military, and more.” Moog Inc. will now have the chance to incorporate the SureFly into these potential fields, while the Cleveland-based company will return to the design and manufacturing sector rather than the aviation sector.

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EHang takes new step towards launching pilotless air taxi route in Guangzhou

06 December 2019 || 4 min read

EHang is one step closer to realizing its aerial mobility vision EHang today announced its strategic partnership with property developer Heli Chuangxin Real Estate Co. Ltd. to build out an urban air mobility (UAM) demonstration project in Guangzhou. This is a major milestone as EHang prepares for the launch of commercial operations of its much-anticipated autonomous flying taxis. Under the...

EHang takes new step towards launching pilotless air taxi route in Guangzhou

06 December 2019 || 4 min read

EHang is one step closer to realizing its aerial mobility vision

EHang today announced its strategic partnership with property developer Heli Chuangxin Real Estate Co. Ltd. to build out an urban air mobility (UAM) demonstration project in Guangzhou. This is a major milestone as EHang prepares for the launch of commercial operations of its much-anticipated autonomous flying taxis.

Under the terms of the partnership agreement, Heli Chuangxin and EHang are committed to building up the infrastructure for the world’s first commercial in-city sightseeing UAM route in Guangzhou.

2 EHang passenger-grade AAVs performed simultaneous flight in the downtown area and CBD of Guangzhou city, near the landmark of Canton Tower and LIEDE Bridge where are must-see sightseeing place for all tourists in Guangzhou.

On November 30, two passenger-grade AAVs of the two-seater EHang 216 model performed simultaneous flight demos, vertically taking off from and landing at Heli Tiande Centre in Guangzhou on the Centre’s opening day. Six EHang 216 AAVs were also on display.

“Today’s demo flights mark another key step forward in Guangzhou’s journey to making urban air mobility a reality and lead global efforts in such commercial operations,” said Hu Huazhi, EHang’s founder, chairman, and CEO. “We are thrilled to be working together with our partners to enable safe, autonomous, and eco-friendly urban air travel as soon as possible.”

The November 30 demos took place four months after EHang announced that it had selected Guangzhou as its first UAM pilot city globally. EHang and Guangzhou plan to establish a low-altitude air transportation network that shuttles passengers and cargo in a safe, fast, environmentally friendly, and cost-efficient manner.

The pilot program enables EHang to test more flight routes and vertiports before moving into passenger-grade commercial operations. Last year, EHang already started commercial operations of air cargo transportation in and near its home base in Guangzhou, working with the express delivery company DHL-Sinotrans and retail company Yonghui.

In January 2019, EHang was selected by the Civil Aviation Administration of China as the country’s first and only pilot company for passenger-grade AAV programs. To date, EHang has safely conducted over two thousand test flights both inside and outside of China to ensure that its AAVs operate safely and reliably.

Why it matters: This milestone partnership for EHang and Heli Chuangxin Real Estate Co. Ltd. represents the progress made by the aerial mobility manufacturer. EHang appears to be on a strong growth trajectory as the company has made strides to build up its pilot program and autonomous route network in its first target city, Guangzhou. Further, the company has begun the process of filing for its IPO in the United States. Expect to see EHang making waves in the aerial mobility space in the coming weeks and months as they prepare to begin commercial operations.

Hyundai’s Massive $52 Billion Dollar Mobility Investment

06 December 2019 || 4 min read

South Korea-based global automaker further commits to investments in mobility Hyundai has announced further involvement in the aerial mobility industry, not long after the company announced that it’s committing resources to bring an air taxi to market by 2023 – the same year that Uber Elevate aims to deploy limited commercial eVTOL operations to customers. The total investment of almost $52...

Hyundai’s Massive $52 Billion Dollar Mobility Investment

06 December 2019 || 4 min read

South Korea-based global automaker further commits to investments in mobility

Hyundai has announced further involvement in the aerial mobility industry, not long after the company announced that it’s committing resources to bring an air taxi to market by 2023 – the same year that Uber Elevate aims to deploy limited commercial eVTOL operations to customers.

Dr. Jaiwon Shin, EVP of Urban Air Mobility at Hyundai, previously head of NASA’s Aeronautics Mission Research directorate

The total investment of almost $52 billion USD is earmarked toward electric vehicles, flying cars, and disruptive mobility solutions. Hyundai also recently appointed Dr. Jaiwon Shin as EVP of its newly established Urban Air Mobility business division, a tangible commitment of human resources to pair with the substantial financial commitment that spans a much large scope than just aerial mobility.

The financial commitment is two-pronged: the first being traditional automotive advancements, leveraging electric motor technology, autonomous driving aids, and last-mile solutions to better current automotive tech to your every-day commute, while the second focuses on clean sheet aerial transportation systems that’ll connect riders between airports and urban centers, and inter-city hops with target ranges of less than 100 miles.

Hyundai already has invested large sums in electric vehicle tech, and similar to Airbus’ collaboration with ItalDesign and Audi, could be weighing the advantages of a ride/fly system, such as the Pop.Up Next, which combines the advantages of a tradition car or shuttle in urban environments with an adaptable “hovertrain” that adds on electric vertical lift motors that allow the “car” portion of the aircraft to convert to an eVTOL and transfer riders over longer, more congested routes. Such a design has not been confirmed by Hyundai, but certainly wouldn’t be ruled out of the realm of possibility due to the company’s experience and presence in the automotive industry.

One area that may challenge Hyundai is establishing aerospace-quality manufacturing standards – while the automaker has no challenge meeting high production rates of its affordable line of cars, standing up the complex composite and aerospace-spec manufacturing processes that add cost and complexity will be a hurdle that Hyundai will need to clear to win a portion of the eVTOL market share.

Why it’s important: Hyundai, and many other large automakers, are much more involved in the aerial mobility and innovative transportation industries than they’re given credit – most of these large companies have R&D sectors dedicated to advancement of tech that’ll both increase the efficiency of current solutions to mobility and define the future architecture for transport in the 10-20 year rollout time frame. Similar to recent aerospace acquisitions of mobility companies (such as the recently announced Boeing and Kitty Hawk Corporation merger, Wisk), expect additional announcements from other large automakers in the coming months and years that signal increased involvement in the aerial mobility industry.

BAE Systems and Jaunt Air Mobility Sign MoU on Electric Energy Management Systems for UAM

05 December 2019 || 5 min read

The two companies will perform a joint study on the future of aircraft electrification for UAM BAE Systems and Jaunt Air Mobility signed a Memorandum of Understanding (MoU), agreeing to explore the development of electric energy management systems in urban aerial mobility. This MoU will also have the two companies collaborate on examining current aircraft power management needs and gain...

BAE Systems and Jaunt Air Mobility Sign MoU on Electric Energy Management Systems for UAM

05 December 2019 || 5 min read

The two companies will perform a joint study on the future of aircraft electrification for UAM

BAE Systems and Jaunt Air Mobility signed a Memorandum of Understanding (MoU), agreeing to explore the development of electric energy management systems in urban aerial mobility. This MoU will also have the two companies collaborate on examining current aircraft power management needs and gain a “deeper understanding of the extension of urban traffic into the airspace.”

Photo by Tom Haines.

BAE Systems, having announced their intentions to enter the electric aviation market a few months prior, have made their next step by involving Jaunt Air. “The collaboration with Jaunt Air Mobility leverages the strengths of two industry-leading companies to develop technology for a new ecosystem,” said Ehtisham Siddiqui, vice president and general manager of Controls and Avionics Solutions at BAE Systems.

“This strategic collaboration builds on our two decades of heritage as we develop and certify controls and energy management systems for the future of flight.” – Ehtisham Siddiqui

BAE Systems Regional Aircraft – J31 Air to Air. Photo credit: BAE Systems

Jaunt Air Mobility, currently in the process of submitting their own eVTOL as a partner of Uber Elevate, seeks to improve their power systems management through this MoU. Both companies stand to gain a competitive advantage in their respective markets with this agreement, and their alignment in interest is what lead to this collobaration. “BAE Systems’ development and integration expertise in high integrity controls and power management systems gives our business an edge in the development of next generation air vehicles for urban environments,” said Kaydon Stanzione, chief executive officer at Jaunt Air Mobility.

“Their proven track record from concept design through manufacturing was a major selection consideration for our business as we strive to provide the highest level of safety and efficiency for our aircraft.” -Kaydon Stanzione

BAE Systems has 20-plus years of experience developing and integrating electric propulsion systems. The company has more than 10,000 electric-hybrid systems on transit buses and marine vessels around the globe, including major cities such as Paris, London, New York, and San Francisco. The company also has more than 40 years of experience in controls and avionics for military and commercial aircraft.

Jaunt Air Mobility LLC is an aerospace company focused on developing advanced air vehicles that incorporate innovative technologies and management strategies, providing the highest levels of operational efficiencies, safety, and community acceptance. The company is a pioneer and world leader in the aerospace industry with the design and development of its Reduced Rotor Operating Speed Aircraft (ROSA™) solution for urban air mobility.

Why it’s important: WIth the experience in electric propulsion systems provided by BAE and the in-depth knowledge of the UAM market from Jaunt Air Mobility, this MoU is intended to address a lucrative topic in the future, the shift from a hybrid/conventional eVTOL model to a fully electric eVTOL model. The first to develop a working, fully electric eVTOL capable of providing the same benefits as conventional engines will have the ability to dominate both the electric aviation and UAM markets over the next few decades.

Source // Press Release by BAE Systems

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Avy Launches Aera to Provide Medical Drone Service

05 December 2019 || 4 min read

Avy’s Aera is a long-endurance VTOL drone designed for lifesaving BVLOS missions. Avy is a ‘wing drones for good’ company, pioneering in innovative aircraft technology for the transition to sustainable aviation and focusing on life-saving missions. Avy is a Dutch manufacturer winged drones, which combine the vertical take-off capability of a drone with an airplane’s efficiency in horizontal flight, thus...

Avy Launches Aera to Provide Medical Drone Service

05 December 2019 || 4 min read

Avy’s Aera is a long-endurance VTOL drone designed for lifesaving BVLOS missions.

Avy is a ‘wing drones for good’ company, pioneering in innovative aircraft technology for the transition to sustainable aviation and focusing on life-saving missions. Avy is a Dutch manufacturer winged drones, which combine the vertical take-off capability of a drone with an airplane’s efficiency in horizontal flight, thus enabling beyond visual lines of sight delivery. Avy drones are used for applications such as first response operations, medical deliveries, nature conservation purposes and search & rescue.

Avy will launch its “lifesaving wing drone” this week (December 4th – 6th) at the Amsterdam Drone Week. During the exhibition, the company will be giving live flight demonstrations in the drone arena on each day, and will be on display in the showcase area. Founder Mr Patrique Zaman will also host a talk on Urban Air Mobility.

The Aera is designed for beyond visual line-of-sight (BVLOS) missions and features modular payload capabilities, integrated avionics, and redundant communications. The aircraft will be used, amongst other things, in the Medical Drone Service pilot project, launched earlier this week. The Medical Drone Service will investigate safe and reliable transport of blood products and medicines between blood banks and hospitals over the next three years.

We use drone technology to have a positive impact on the world by saving lives. Avy flies autonomously and can cover long distances thanks to its wings, and can transport packages of 1.5 kilos in cold chain conditions. We took to the air because we don’t want road traffic to slow us down, and we have the possibility to reach our destination in a straight line. Avy is a ‘wing drones for good’ company and produces zero emissions. You may just call it the superhero of this new technological era.

– Mr. Patrique Zaman, Founder of Avy

Avy also recently announced a partnership with Auterion, an open-source based operating system for enterprise drone. The Avy Aera drone will leverage the complete Auterion software platform, including the operating system, Auterion Enterprise PX4, the Auterion Ground Station software for flight planning, and Auterion Insights for flight, safety, and compliance management.

Why it’s important: Avy’s attention to current and future regulations will ultimately be a determining factor in the Aera’s success and ability to carry out its mission. The drone is designed to meet the latest EU regulations and with a range of over 100 km carrying cargo or sensor payloads up to 1,5 kg, and is equipped with onboard redundant communication links (RF, LTE, Satlink) and ADS-B transponder. As mentioned, Avy Aera is able to operate BVLOS and is compliant with the upcoming EASA regulations, by following the SORA framework.

Source // Avy

Kitty Hawk Corp Rebrands as Wisk

03 December 2019 || 3 min read

Kitty Hawk recently rebranded as Wisk.Aero in a move many news outlets are stating is resultant of turmoil within the company. Regardless, the firms’ planned rollout of aerial mobility solutions in New Zealand is touted on the new wisk.aero website – along with the advantages of New Zealand as a location for piloting urban mobility solutions. Wisk touts the more...

Kitty Hawk Corp Rebrands as Wisk

03 December 2019 || 3 min read

Wisk is the result of a rebranding of Kitty Hawk Corporation, 6 months after the company announced a partnership with Boeing.

Wisk touts the more than 1,000 flights that Cora has completed to date, and is the result of the recent partnership announced between Boeing HorizonX (the venture arm of Boeing) and Kitty Hawk Corporation. Wisk’s CEO, Gary Gysin, is among board members that also include Steve Nordlund, Vice President and General Manager of Boeing NeXT, along with Logan Jones, VP of Boeing HorizonX. The mission of Wisk, according to the website, is unchanged from that of Kitty Hawk – less the rebrand.

Additionally, the organization features New Zealand local representatives as well – Anna Kominik serves as the New Zealand country director for the company, helping to advance local policy and establish New Zealand as a global contender among future mobility projects.

However, no timelines are presented for when Cora may operate on its first commercially-serviced route in New Zealand, as the company has publicly announced that no flights with paying customers would occur “until the time is right”. The company says that New Zealand has a “safety-focused regulatory environment” and “a strong history of excellence in airspace management”.

Boeing’s partnership with KittyHawk Corporation may also play well with recent advances made by the company related to the SkyGrid systems – a partnership between Boeing and sparkcognition, the world’s leader in AI. SkyGrid is establishing UTM solutions (low altitude airspace management) that’ll allow for drones and eVTOLs to interact with one another autonomously and deconflict an increased quantity of air traffic. That same UTM technology, when integrated with Wisk’s operating plan in New Zealand, would serve as the basis for a small, commercial eVTOL operation.

Why it’s important: The formal rebranding of Kitty Hawk as Wisk comes almost six months after the June announcement of a partnership between Boeing and the eVTOL maker. Since that announcement, numerous challenges have faced both companies, but the quantity and quality of resource pools and financial support from each will most likely contribute to persistent progress toward officially developing and deploying the systems that are being tested today.

NASA + Uber Aerial Mobility Testing Continues

01 December 2019 || 4 min read

Uber and NASA are collaborating to simulate the future of eVTOL ridesharing services. According to NASA, the end goal of the collaboration with Uber is a safe and efficient air transportation system where everything from small package-delivery drones to passenger-carrying air taxis operate over populated areas – from small towns to the largest cities. Researchers at NASA’s Ames and Langley...

NASA + Uber Aerial Mobility Testing Continues

01 December 2019 || 4 min read

Uber and NASA are collaborating to simulate the future of eVTOL ridesharing services.

According to NASA, the end goal of the collaboration with Uber is a safe and efficient air transportation system where everything from small package-delivery drones to passenger-carrying air taxis operate over populated areas – from small towns to the largest cities.

Credit // NASA

Researchers at NASA’s Ames and Langley Research Centers are developing technologies for UAM airspace management to make large-scale operations possible. Researchers at Ames have already studied, designed and tested technologies that could soon be used for drone airspace management, even in complex urban landscapes.

In this partnership, Uber is sharing its plans for implementing an aerial mobility eVTOL rideshare network. NASA meanwhile, as America’s aeronautics research agency, is using the latest in airspace management computer modeling and data collection to assess the impacts of small aircraft in crowded environments, and begin designing management systems.

A series of collaborative meetings between NASA, the Federal Aviation Administration (FAA)’s Air Traffic and NextGen organizations, and Uber, are currently ongoing at NASA Ames Research Center. The focus of these meetings is to discuss near- and mid-term UAM procedures and identify top priorities in development and regulation. In fact, the Air Traffic Management Exploration (ATM-X) project’s Increasing Diverse Operations (IDO) subproject recently led a discussion on long term research needs for new entrants into the National Airspace System (NAS).

Savita Verma demonstrates X2 to FAA and Uber visitors in the UAM lab.

Demonstration of X2 to FAA and Uber visitors. Credit // NASA

An engineering evaluation called “X2” saw the NASA Air Traffic Management Exploration (ATM-X) Urban Air Mobility (UAM) team collaborate with Uber Elevate to run a complete simulation of eVTOL flights over Dallas-Fort Worth, Texas. The NASA team demonstrated the X2 simulation’s use cases such as a live connection to Uber’s simulation facilities and virtual flights. The series of 40-minute test scenarios was reported to be a success, and further simulations are already being planned..

Why it’s important: Simulating eVTOL air traffic over Dallas is a key part of beginning Uber’s aerial ridesharing services planned to begin as early as 2023. Through sophisticated simulations, Uber and NASA will allow involved parties to understand and successfully plan the management of airspace. Uber plans to conduct demonstration flights in Dallas in 2020.

Source // NASA, Uber

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Environmental Factors and eVTOL Operations

01 December 2019 || 8 min read

When Day VMC isn’t possible, how will future aerial mobility solutions cope? Aircraft flying across the world encounter varying atmospheric conditions every day: from rain, winds, fog, freezing temperatures to natural disasters such as volcanic eruptions, aerospace innovation has excelled in addressing the technical challenges of operating aircraft in some of the harshest environments on earth. But, not all that...

Environmental Factors and eVTOL Operations

01 December 2019 || 8 min read

When Day VMC isn’t possible, how will future aerial mobility solutions cope?

Aircraft flying across the world encounter varying atmospheric conditions every day: from rain, winds, fog, freezing temperatures to natural disasters such as volcanic eruptions, aerospace innovation has excelled in addressing the technical challenges of operating aircraft in some of the harshest environments on earth. But, not all that flies is immune to the challenges of our ever-changing atmosphere.

Take helicopters, for instance. While a portion of helicopters are equipped for IMC (in meteorological conditions) or IFR flight, the vast majority of helicopter operations are conducted in day or night VMC (visual meteorological conditions), while all Part 121 operated commercial aircraft fly IFR exclusively. Aside from the regulatory requirements that mandate large turbojet commercial air carriers operate using an elevated standard of navigational precision, the little to no requirements of the sort exist for helicopter operations conducted for hire, and in many cases those helicopter operations cease when weather dips below VFR or Marginal VFR minimums – a discrepancy that may be attributed to many helicopter operations occurring in chartered (Part 135) scenarios.

So what of the future of vertical, commercial aircraft operations – how will weather and operational regulations define the requirements of the future? A number of analogous cases may be drawn between eVTOL and helicopter operation vs. the commercial airline industry.

Air Traffic Management

Commercial air travel occurs almost exclusively under Part 121 regulations due to the volume and safety requirements of thousands of aircraft operating in the same airspace each day in the US alone. If the entire slate of commercial aircraft were to operate under visual flight rules, flight during many seasons that bring inclement weather simply wouldn’t be possible. Looking forward, though, the advancements in Air Traffic Management that are being piloted by companies such as AirMap (low-altitude airspace management), Skydio (proprietary see and avoid technology in consumer drones) and others such as Boeing’s SkyGrid and Airbus’ UTM offer integration packages that can vastly increase the quantity of air traffic in a given sector while maintaining high latency and location reporting precision.

Commercial air service operates almost irregardless of weather. How will future aerial mobility solutions like Lilium operate when the skies aren’t so clear?

These features, when implemented at scale, orchestrate pre-defined low-altitude air traffic routes, much like the Victor airways in the US and other airways globally that allow for stratification and organization of air traffic.Once navigation pathways are defined, managing operations on these pre-set routes is much easier, even when weather and environmental factors are at play, as a thunderstorm cell or icing pocket will be approached via a similar ground path for all traffic heading in one direction or the other: a controller (or in the future, airspace management dashboard) need simply re-define the airway that traffic is operating on to avoid the discrepant weather or atmospheric condition – resulting in a new pre-defined path that avoids conflict. In addition, this redefinition of an airway allows for controller workload alleviation, as the current solution requires a discrete, individual reroute from a human air traffic controller for each commercial flight in operation. This approach combines the advantages of preferred commercial aircraft routings with the flexibility of helicopter operations (where routes may change on a moments’ notice due to incoming weather).

Icing and Environmental Factors

Icing, hail, fog, and heavy rains all present some of the largest environmental challenges for helicopter (and eVTOL) aircraft as they restrict visibility and prevent many helicopters that are only rated for visual flight rules from making point-to-point flights. The presence of rain or fog isn’t the showstopper for eVTOLs that it is for helicopters: the precision of most GPS guided routes that have been demonstrated by prototype eVTOLs and drones today is on the order of meters (and in some case as good as 1m).

Unfortunately, icing is a challenge that hardly any eVTOL manufacturers have publicly addressed; whether it be for complexity or a reasoned approach of slowly adding complexity – the energy requirements of heating various lifting and propulsive surfaces are destined to increase the total energy requirements of eVTOL systems and thereby place even greater demand on battery energy density requirements, a topic already at the forefront of the aerial mobility industry today. Back to navigating in inclement weather, though:

Increasing automation, such as that of the Garmin Autoland system installed in the Piper M600 aircraft, reinforces the advancements that automated flight path guidance technologies are marking in small aircraft applications today.

The improvements in consumer drone technology by companies such as Skydio, which have created the world’s first drone that autonomously follows the user, are the same advancements in guidance and positioning that will allow for the incredibly high precision flight path guidance of eVTOLs of the future. Just as navigational aids such as NDB’s and use of the ADF were outdated by Instrument Landing systems (which are now being replaced en masse by RNAV, GPS, and RNP approaches) the next generation of flight path guidance may have roots firmly planted in the advance algorithms that companies like DJI and Skydio have toiled for long hours to perfect. Certification of said guidance systems will rely heavily on the ability to apply operational data from ongoing (drone) flights to demonstrate performance; but that discussion is not the focus of this analysis.

Public Perception

The idea of landing a large, commercial aircraft in a snowstorm or during a foggy morning in an ocean-side location was once intense enough to prevent many flights. Today, that perception has been replaced with the maturity of navigational technology – to the point where most passengers hardly notice the difference (or increased level of effort) of landing an aircraft in that snowstorm in Colorado compared to a visual approach on a sunny day in Southern California.

Similarly, the flying public of 2040 will be a majority demographic of technology-savvy passengers and riders, so the idea of hopping aboard an eVTOL in San Francisco during a winter fog stint would hardly raise an eyebrow, while the same flight today would undoubtedly be matched with significant consternation.

Why it’s important: Fixed wing aircraft and helicopters were initially only suited to flying in Day VMC conditions. Through technological advances, fixed wing (and then rotorcraft) were able to fly in IMC conditions, and at night. Navigational aids have increased in precision and enabled greater access to airports in degraded environmental and atmospheric conditions. When the advances of the past 20 years are projected to the next 20, the idea of GPS-guided eVTOL flight paths with ground track accuracy of ~1m and automated flight path rerouting using similar algorithms to those in existence today is not too far-fetched. And finally, the general sentiment of those flying on the aircraft that’ll be operated in these conditions will be that of wonder of flight and confidence in the technology that they’ve grown up with.

Airbus Wayfinder Uses AI for Certifiable Autonomous Systems

01 December 2019 || 4 min read

Airbus further invests in aerial mobility with the development of eVTOL autonomous systems. A³ by Airbus is the Silicon Valley R&D outpost of Airbus, where Project Wayfinder is currently under development. The company hopes to implement artificial intelligence as a means of advancing the capabilities and applications of autonomous systems for aerial mobility. According to Airbus, “Project Wayfinder is building...

Airbus Wayfinder Uses AI for Certifiable Autonomous Systems

01 December 2019 || 4 min read

Airbus further invests in aerial mobility with the development of eVTOL autonomous systems.

A³ by Airbus is the Silicon Valley R&D outpost of Airbus, where Project Wayfinder is currently under development. The company hopes to implement artificial intelligence as a means of advancing the capabilities and applications of autonomous systems for aerial mobility.

According to Airbus, “Project Wayfinder is building scalable, certifiable autonomy systems to power self-piloted aircraft applications throughout Airbus, from small urban air vehicles to large commercial airplanes. Our team of experts is driving the maturation of machine learning and other core technologies for autonomous flight; we are creating a reference architecture that includes hardware, software, and a data-driven development process to allow aircraft to perceive and react to their environment.”

A few of the technologies we may expect to see from Wayfinder include detect-and-avoid, landing zone recognition, and other autonomous systems.

The Airbus Vahana Alpha Two tilt-wing eVTOL at Eastern Oregon Regional Airport in Pendleton, Oregon. Photo // Airbus

Through its beginnings as part of the Airbus Vahana eVTOL project, Wayfinder’s potential for applications throughout aerospace quickly became clear. The success of the project encouraged Airbus to make Project Wayfinder its own entity within A³, which now will develop intelligent technology for all types of aircraft.

The Vahana prototype was on display this summer at EAA AirVenture in Oshkosh, Wisconsin.

The Air Line Pilots Association (ALPA) currently mandates “at least two adequately rested, fully qualified, and well-trained pilots,” which currently blocks implementation of autonomous system into commercial operations. While still prohibited for commercial use, autonomous piloting systems are often tested in small-scale autonomous air vehicles such as Airbus’ Vahana, and will eventually make their debut into commercial aviation with collaboration from regulators.

Why it’s important: The development of the Wayfinder technology sets the stage for the future of smart technologies for flight. Other technologies, such as Garmin’s Autoland avionics system, which automates communication between ATC and pilots, are currently under development and certification as well. Together, these kinds of systems will eventually form the air traffic management and flight systems for urban aircraft.

Source // Avionics International

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ALI Technologies Presents Their Flying Motorcycle

01 December 2019 || 6 min read

ALI Technologies showed off their prototype, Xturismo, at the 2019 Tokyo Motor Show While ALI Technologies is still in the process of developing its final product, they presented their prototype, the Xturismo Limited Edition, at the 2019 Tokyo Motor Show at Tokyo Big Sight. ALI plans to have the final product ready for delivery by late 2020, and gain licensing...

ALI Technologies Presents Their Flying Motorcycle

01 December 2019 || 6 min read

ALI Technologies showed off their prototype, Xturismo, at the 2019 Tokyo Motor Show

While ALI Technologies is still in the process of developing its final product, they presented their prototype, the Xturismo Limited Edition, at the 2019 Tokyo Motor Show at Tokyo Big Sight. ALI plans to have the final product ready for delivery by late 2020, and gain licensing for public roads under Japan’s Road Transport Vehicle Act by 2023. Mass production is also scheduled once the vehicle gains licensing provisions.

The Xturismo Limited Edition

The futuristic looking vehicle runs on two fans, aligned on the front and back of its underside. Additionally, four sub-fans are installed on each quadrant section of the vehicle for steering purposes, and small, motor-driven propellers are placed on either side of the vehicle to maintain posture control. A hybrid, the vehicle is driven by both a gasoline engine and electric battery; according to ALI, while a completely electric vehicle is the plan for mass production in 2023, the gasoline engine is installed for now to ensure sufficient and sustained driving power even with small propellers. A cowl on the front and an exhaust duct at the rear help to further maximize lift. ALI Technologies did not elaborate on the vehicle’s capabilities or specifications at this stage of its development. “As for speed, all I can say right now is that we are aiming to produce a 200-kilometer-per-hour model.”, says Katano Daisuke, president of ALI Technologies.

Katano Daisuke, president of ALI Technologies.

Conceptually, the vehicle is a “fusion of compact size and design,” according to Katano. Katano emphasizes the importance placed on design, and compares ALI to Tesla Motors, in that “we plan to start by marketing exclusive, high-end models, and after we’ve established our market, we’ll shift to mass production.” An important parallel would be the importance placed on the usage of clean energy in their vehicles; while Katano did not elaborate on the final product’s intended battery capabilities, at the moment ALI Technologies is aiming for two hours of driving time with one full charge of the batteries.

In concert with finishing the development of its aerial mobility technology, ALI is also working to build infrastructure for airborne traffic, including three-dimensional control systems and air route designs, ultimately aiming for “an air mobility society in which traffic accidents never happen,” according to Katano. The focus is especially strong on cutting down on traffic accidents by developing self-driving electric vehicles with a high degree of control.

“Self-driving vehicle mobility is easier to achieve in a three-dimensional rather than a two-dimensional context. The lack of obstacles make it easier to control the vehicle.” says Katano, “Our mission is to eliminate traffic accidents altogether.”

Like with many other eVTOLs and flying vehicles, ALI Technologies’ flying motorcycle will need to face numerous safety and legal hurdles to overcome, as well as a need for public acceptance. ALI Technologies has appointed Yasutomi Masafumi, a former vice transport minister, as its special advisor and is hoping to secure licenses for its airborne vehicles to be used on public roads by 2023. Until then, the vehicles will only be usable in areas such as: open fields, lakes, deserts, and wetlands, or even areas where unexploded ordnance is present. Uses that will benefit society, such as disaster relief, will take precedent over personal applications.

ALI Technologies, headquartered in Minato, Tokyo, was established in September 2016 by a group of University of Tokyo student entrepreneurs developing drones. Chief among the group is Komatsu Shūhei, who developed the basis of a business plan for a flying bike and is the former company president and current chairman, and Katano Daisuke,who took over as president in July 2018. Komatsu and Katano work in tandem in guiding the firm, with Komatsu overseeing technology development and Katano taking responsibility for overall management of the company.

“It’s a rare company that tackles both air infrastructure and air mobility,” says Katano, “I think there’s only one other company like ours, and it’s in Israel. Our company is working to achieve an air mobility society in which traffic accidents never happen.”

Why it’s important: It’s evident that aerial mobility can be realized in numerous forms other than the “flying car.” While similarities can be drawn with the flying motorcycle in development by JetPack Aviation, the main factor to look out for will be the difference in intended applications. ALI Technologies is ultimately aiming for “an air mobility society in which traffic accidents never happen,” while JetPack’s Speeder seems to be designed for purely recreational purposes. The paths of these two companies will be interesting to follow in light of the numerous more “traditional” aerial mobility companies.

Source // nippon.com

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Russian Startup Flyter Successfully Tests Wing Components

27 November 2019 || 3 min read

Russian startup Flyter has taken the next important step in testing the design of its 2-seater PAC 720-200. Flyter has been around since February 2018. Since then, it unveiled its concept for the PAC 720-200, a two-seater VTOL aircraft that flies like a small plane but can take off like a helicopter. Flyter’s goal is to make an aircraft that...

Russian Startup Flyter Successfully Tests Wing Components

27 November 2019 || 3 min read

Russian startup Flyter has taken the next important step in testing the design of its 2-seater PAC 720-200.

The Flyter PAC 720-200 is capable of carrying 440 lbs with a max range of 560 miles.

Flyter has been around since February 2018. Since then, it unveiled its concept for the PAC 720-200, a two-seater VTOL aircraft that flies like a small plane but can take off like a helicopter. Flyter’s goal is to make an aircraft that can both use airports as well as access more remote locations.

The Flyter 720-200 features a total of eight downward-facing lift propellors. Flyter states that although the it would have liked to use only four props, efficiency and thrust requirements led to the four-prop design.

In the latest test, Flyter successfully proves many of the predicted thrust and efficiency calculations. The design itself is unique in that propellors sit under the wing rather than on top of it, and the test proved the functionality of this concept. While many eVTOL prototypes (such as the Boeing PAV) use only upward facing propellors and others use a combination of upward and downward facing propellors, Flyter is one of the only companies to use solely downward facing propellors.

Watch the company’s full description of the flight test below:

Flyter is also one of the only eVTOL developers in Russia, and is proceeding with testing on schedule. The company begun taking investors in April of this year. Rather than targeting an urban air taxi market, Flyter’s strategy is to provide a vehicle that can access remote locations of Russia. The company will make both a passenger and autonomous cargo version of the PAC 720-200, and intends to use hybrid power for maximum range.

For more about Flyter, visit its website here.

Why it’s important: Since Flyter is one of the only eVTOL developers in Russia, it has a good chance of being first to capture VTOL flight demand there. Through its latest round successful of testing, Flyter sets a precedent for future progress, securing itself as a technology leader in Russia. Flyter’s next steps will involve continuous testing and eventual prototyping and certification.

Beta Technologies Selects GPMS for Condition Monitoring System

24 November 2019 || 4 min read

GPMS developed a Health & Usage Monitoring System to serve emerging eVTOL applications. Vermont-based Beta Technologies is currently developing the second iteration of its eVTOL prototype at their facility in South Burlington. The new prototype will build upon many of the design features seen in the company’s first iteration, the Ava, and we can likely expect a redesigned structure to...

Beta Technologies Selects GPMS for Condition Monitoring System

24 November 2019 || 4 min read

GPMS developed a Health & Usage Monitoring System to serve emerging eVTOL applications.

Vermont-based Beta Technologies is currently developing the second iteration of its eVTOL prototype at their facility in South Burlington. The new prototype will build upon many of the design features seen in the company’s first iteration, the Ava, and we can likely expect a redesigned structure to more closely fit the requirements of various aerial mobility applications. One technology that will certainly be seen in Beta’s next prototype is Foresight, a Next Generation Health & Usage Monitoring System (HUMS) designed specifically for electric vertical takeoff and landing (eVTOL) aircraft.

GPMS Foresight MX Foresight is the flagship product of Vermont-based GPMS, and combines advanced sensors and cloud-based software to provide remote monitoring and predictive maintenance capability. The software is designed to give rotorcraft operators the power to “know it before it matters.” Installation of Foresight MX on the Beta platform will enable Beta to reduce operational costs through advanced notification of impending maintenance requirements while adhering to budget, space and weight constraints of operators. Additionally, Beta engineers will be able to remotely monitor their rotorcraft, accessing data and analytics for advanced diagnostics and predictive maintenance.

The GPMS Foresight MX system provides mechanical diagnostics and prognostics including engine performance monitoring, exceedance monitoring, flight regime recognition, automated data acquisition, and optimization solutions for rotor, track and balance. The Foresight MX computer weighs a fraction of legacy system, provides automatic alerting through email and SMS, and has a user interface accessible through web browser on a laptop, desktop, tablet or cell phone. Beta engineers will be able to monitor their rotorcraft directly, accessing data and analytics for advanced diagnostics and predictive maintenance. “eVTOLs share with traditional helicopters the need to understand and continuously evaluate the health and condition of key mechanical systems,” said GPMS CEO and Chief Engineer, Eric Bechhoefer in a press release. “We are excited to enter this market with Beta.”

Why it’s important: GPMS has the technical acumen to provide a condition monitoring system adaptable to a vehicle’s needs at a reasonable price point. As Beta iterates upon its already proven prototype, the new partnership with GPMS could be an immensely valuable launchpad for GPMS to demonstrate its technology. Eventually, Foresight may be integrated with the onboard systems of many other aerial mobility vehicles.

Source // GPMS press release

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A New Urban Heliport Concept from Leonardo and Falcon Aviation Services

22 November 2019 || 3 min read

Famous for creating a civilian version of the Osprey V-22, Leonardo S.p.A recently unveiled a new kind of heliport designed for urban aerial mobility. At the Dubai Air Show earlier this week, Leonardo, in collaboration with Falcon Aviation Services, released its concept for a ‘rotorcraft dedicated’ terminal. According to Leonardo, the new terminal initiative is meant “meet the growing demands...

A New Urban Heliport Concept from Leonardo and Falcon Aviation Services

22 November 2019 || 3 min read

Famous for creating a civilian version of the Osprey V-22, Leonardo S.p.A recently unveiled a new kind of heliport designed for urban aerial mobility.

Leonardo’s new rotorcraft terminal will support the development of a network of point-to-point connections for both urban transfers and connections between cities.

At the Dubai Air Show earlier this week, Leonardo, in collaboration with Falcon Aviation Services, released its concept for a ‘rotorcraft dedicated’ terminal. According to Leonardo, the new terminal initiative is meant “meet the growing demands for sustainable and modern vertical lift mobility.” and enable “greater access to urban areas.”

Built specifically for VTOL aircraft, the terminal concept combines a helipad, lounge, and show room into a single heliport, built to be placed in densely populated urban areas. Leonardo envisions that the terminal will support both point-to-point travel within cities as well as connections between them. The terminal is made of recyclable materials, and can even be moved between urban locations according to flight demands.

Alongside this new vision for urban air transport infrastructure, Leonardo is developing the AW609, a pressurized, passenger version of the existing military Osprey V-22. Once completed, the AW609 will be the world’s fastest commercial rotorcraft. Leonardo is currently working with the FAA on certification, and expects to be able to begin commercial flights in 2020.

The Leonardo AW609 passenger tilt-rotor aircraft. The AW609 is pressurized, and fitted with a luxury interior.

Why it’s important: Although Leonardo’s concept terminal is not the first ‘Vertiport’ imagined, it may be one of the first in commercial use. Unlike existing concepts, which are specifically designed for new eVTOLs, the Leonardo/Falcon Aviation terminal will support all types of vertical lift aircraft. This means that it will soon commence service for helicopter flights, providing an excellent proving ground for future aircraft.

Sources // Leonardo

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GPMS developed a Health & Usage Monitoring System to serve emerging eVTOL applications.

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