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Avionics Upgrades Coming to Citation Latitude and Longitude – May 28, AIN

Textron Aviation recently announced the newest enhancements to Garmin’s G5000 avionics are coming to the Cessna Citation Latitude and Longitude aircraft, whereupon it expects to have FAA approval for modifications in 2025 and 2026, respectively AIN reported. New features include the GDL 60 datalink, a synthetic vision guidance system on primary flight displays, 3D SafeTaxi, taxi routing and a runway occupancy awareness function. Since 2023, Textron Aviation has produced the 400th Citation Latitude and 100th Citation Longitude aircraft.

The post Avionics Upgrades Coming to Citation Latitude and Longitude – May 28, AIN appeared first on Avionics International.

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DARPA Selects Six Companies To Continue In Long-Endurance VTOL UAS Program

ANCILLARY design concept renderings from six performers, clockwise from lower left: Sikorsky, Karem Aircraft, Griffon Aerospace, Method Aeronautics, AeroVironment, Northrop Grumman. (Image: DARPA)

The Defense Advanced Research Projects Agency (DARPA) this week said it selected six companies to continue in the risk reduction and component testing phase of its program to develop vertical take-off-and-landing (VTOL) uncrewed aircraft system (UAS) in support of Navy and Marine Corps missions.

The mix of traditional and non-traditional defense contractors selected include AeroVironment, Griffon Aerospace, Karem Aircraft, Method Aeronautics, Northrop Grumman, and Lockheed Martin’s Sikorsky business unit for Phase 1b of the AdvaNced airCraft Infrastructure-Less Launch and RecoverY program, what DARPA calls ANCILLARY. The Phase 1a effort also included AVX Aircraft, Leidos, and Piasecki Aircraft.

In the 10-month Phase1b, DARPA said the companies will mature their X-plane designs to reduce risk by conducting component and configuration hover testing. Sikorsky on Wednesday said it is already doing flight tests using a battery-powered proof-of-concept vehicle to “prove the efficiency and scalability of a twin proprotor ‘rotor blown wing’ configuration that sits on its tail to take-off and land like a helicopter, and transitions easily to horizontal forward flight for long-endurance missions, such as intelligence, surveillance, reconnaissance and targeting.”

At the end of Phase 1b, companies will submit competitive proposals for Phase II, which includes detailed design, fabrication, and testing, DARPA said. The program will end with flight tests beginning in early 2026.

DARPA wants designs that can launch and recover from ships without “large mechanical launchers” or special landing equipment typically in use today, it said. Another requirement is to be able to operate from remote, unprepared land locations in most weather conditions and fly like winged aircraft with a significant payload as needed.

“The goal of ANCILLARY is to increase small vertical take-off and landing uncrewed aerial system capabilities by a factor of three over the current state-of-the-art flying today,” Stevn Komadina, DARPA’s program manager, said in a statement, “Our performers are searching for innovative ways to increase payload weight and range/endurance of small, ship-launched UAS by means of novel configurations, propulsion, and controls while also removing the need for special infrastructure.”

Northrop Grumman said the Phase 1b selection moves it a “step closer to building a flight demonstrator.” The company said its teammates include Leigh Aerosystems and Near Earth Autonomy.

Igor Cherepinsky, director of Sikorsky’s rapid prototyping group, said in a statement about his company’s offering that “Key enablers to flight maneuverability, and future vehicle scalability, are our MATRIX autonomy flight control system, and an articulated rotor system similar to those in traditional helicopters.”

If Sikorsky is selected for Phase II, the company said it will build a 300-pount hybrid-electric version of its UAS that includes a 60-pound ISR payload.

DARPA received $13.2 million for ANCILLARY in fiscal year 2024 and is requesting $22.9 million for the program in FY ’25.

A version of this story originally appeared in affiliate publication Defense Daily.

The post DARPA Selects Six Companies To Continue In Long-Endurance VTOL UAS Program appeared first on Avionics International.

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USAF and Merlin Labs Explore Autonomous Options for KC-135

Pictured is a KC-135 Stratotanker assigned to the 6th Air Refueling Wing at MacDill AFB, Fla. on Nov. 20, 2023. (U.S. Air Force Photo)

Boston-based Merlin Labs, Inc. said on May 30 that it is using data from flights of a KC-135 at MacDill AFB, Fla., “to better understand crew workload drivers and gather data to expand the autonomous capabilities of the Merlin Pilot for military use cases.”

“Conducted on May 14 and 15, the two flights enabled Merlin’s engineers to assess the tasks that pilots execute in-flight to determine where advanced automation capabilities would be the most impactful for safety, cost savings, and efficiency,” the company said.

On May 16, the 6th Air Refueling Wing at MacDill confirmed the testing but did not reveal the name of the company.

Boeing  has been exploring an autonomous boom for the Air Force KC-46A Pegasus refueler to eliminate the need for boom operators (Defense Daily, June 15, 2022).

Merlin CEO Matt George said on May 30 that the data from the KC-135 flights on May 14 and 15 “is critical to our phased approach to autonomy, starting with reduced crew operations, and to materially evolving our advanced automation systems.”

“Being able to observe multiple aerial refueling flights and see exactly how pilots are focused on critical tasks like take-off, landing, and communications in operational military use cases has given us valuable insight into how Merlin’s technology solution can best support the Air Force,” he said.

“The Air Force is strategically integrating autonomy as a key enabler for global missions,” Merlin said. “With safety and efficiency at the forefront, Merlin’s technological advances are able to support the relationship between the pilot and their aircraft. During any given Air Force mission, a pilot could be focused on a multitude of tasks at once.”

“Operational mission responsibilities are extremely diverse and pilot tasks align to each given mission,” Merlin said. “Focus areas could be tied to humanitarian, surveillance, command and control, air superiority or many others. Learning about task priorities and complexity gives Merlin engineers insight into how to maximize automation and autonomous processes to allow pilots to focus on the most critical tasks at any given time.”

In February, Merlin said that it had signed a multi-year Cooperative Research and Development Agreement with Air Mobility Command (AMC) and Air Force Materiel Command to develop and integrate the Merlin Pilot on the KC-135 to inform the Next Generation Air Refueling System and “pave the way for autonomous uncrewed operations of the KC-135–an unprecedented new capability for AMC and the USAF.”

A version of this story originally appeared in affiliate publication Defense Daily.

The post USAF and Merlin Labs Explore Autonomous Options for KC-135 appeared first on Avionics International.

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Educating Pilots On eVTOL Air Mobility And This New Generation Of Air Taxis

Electric Vertical Take Off and Landing (eVTOL) aircraft represent a new era of aviation and with this new era comes a huge demand for uniquely trained professional pilots to safely fly passenger and cargo at scale across global markets. New pilot training technologies and methodologies are being presented, all the while keeping safety paramount for the unique challenges of this advanced air mobility (AAM).

What’s Different about eVTOL?

Pilot training for eVTOL aircraft differs from other forms of training primarily due to the unique characteristics of these aircraft, which Parker Downey, flight test operations manager at Elroy Air, San Francisco, says includes their distributed electric propulsion systems, vertical takeoff and landing capabilities, and in many cases autonomous flight features. “Pilots need to be familiarized with the unique handling qualities of these advanced technologies and must possess a comprehensive understanding of the principles and safety protocols of electric and hybrid-electric aircraft systems.”

Andreas Pfisterer, head of pilot training and flight operations, test pilot at Lilium, Weßling, Germany, says the European Union Aviation Safety Agency (EASA) and the FAA are only agencies allowing commercial pilots to train on and operate eVTOL aircraft of any type. 

“In addition there might be a minimum hours of flight hours required to operate these future eVTOLs in a new type of operation, being low level, in and out of international airports and within and between city centers, all in VFR operation, at least for the beginning. IFR will be allowed at a later stage. Once the pilots start their training, it will first be the theoretical knowledge before going into the practical training, being a full flight simulator or a combination of different simulator levels. Smaller eVTOLs might do the training in the aircraft only or a mix of aircraft training and basic simulators.”

Most eVTOLs will be operating in urban environments with missions characterized by shorter flight durations, typically lasting between 5 to 30 minutes. While eVTOL vehicles are being optimized to simplify pilot workload, Christopher Courtney, director of advanced air mobility at CAE, Canada, Quebec, says the critical phases of flight such as takeoffs and landings make up a larger portion of a flight operation than a typical commercial or business aircraft flight operation. 

“An eVTOL pilot could experience two to four critical phases of flight per hour rather than two to four critical phases of flight per day. Take-offs, landings, and transitions have not been fully automated for the majority of these aircraft, so training will need to account for fatigue management in these high cycles of operation.”

CAE’s Mixed Reality Flight Simulator

Urban eVTOL operations will introduce complexities for pilots in managing the crowded airspace and close proximity to other vehicles and ground infrastructure. This will necessitate new forms of agile decision-making that are not typically trained for in traditional aviation. Courtney cites examples including emergency landings in densely populated areas, adapting to micro-weather and urban canyon effects, and addressing potential communication challenges.

Lastly, with evolving regulatory requirements and the advent of single-pilot operations, a reevaluation of training methods and equipment is required. Traditional flight simulators may be limiting for eVTOL OEM start-ups and operators given their high capital and facility demands. To address this, Courtney says CAE is actively investing in innovative training devices such as mixed reality, ensuring cost-effectiveness, scalability, while maintaining high fidelity and realism for effective training.

eVTOL Technologies and the Tools to Train

There’s a unique opportunity to introduce next-generation training technologies and new processes to this new modality of aviation. These advancements will strive to tackle critical challenges faced in aviation today, enabling pilot training to be cost-effective, accessible, scalable, and safe while meeting the unique demands of AAM.

Downey says autonomy is the single biggest enabler for both pilot training and operation of advanced aircraft such as eVTOLs. “Autonomy reduces pilot workload, allowing pilots to focus on higher level tasks and to more effectively learn how to operate eVTOLs in a variety of conditions. When a system is not fully autonomous, pilots need to maintain their skills and be able to take control when autonomous systems encounter limitations or unexpected challenges.”

Pfisterer explains that the latest eVTOL technologies will be used in a blended learning environment containing a mix of classroom, distant-, online-, virtual reality, and other training tools. “A thorough training need analysis (TNA) can define the right tools to be used that fit the purpose and cover all the special requirements of the eVTOL operation. A small cockpit with single-pilot operation—at least with the majority of the vehicles—will allow smaller training simulators.”

CAE has developed modern and innovative solutions to help address eVTOL pilot training challenges, safely and efficiently. It is leveraging modern learning philosophies such as competency-based training and assessment (CBTA) and adaptive learning techniques. This enables training to be re-centered around pilot competencies and the outcome of training vs the prescriptive, less efficient and disparate models of training seen in traditional pilot training.

“From a technology perspective, we are investing heavily in advanced technologies such as virtual and mixed reality, artificial intelligence, and machine learning to advance the capabilities and quality of training for the pilots of the future,” Courtney says. “[Also,] we are focusing heavily on integrating data analytics to ensure an efficient training footprint that meets the safety requirements, performance evaluation, and mission complexities expected of AAM operations. For example, CAE’s proprietary training tool, CAE Rise provides instructor access to student performance data enabling trainee progress to be monitored for early intervention and correction. Instructors can focus on necessary remediation and on the needs of more advanced students. Student results are aggregated into data for the entire class, enabling instructors and the training organization to monitor trends, gaps, and opportunities for continuous improvement.”

Simulation and eVTOL Training

Simulation and virtual training environments play a crucial role in training eVTOL pilots in a safe and immersive platform. They replicate a real-world virtual environment and high-risk operations for understanding aircraft behaviors in different phases of flight, practicing various flight scenarios, emergency procedures and complex maneuvers.

“Simulators enable pilots to familiarize themselves with different eVTOL models, experience diverse weather conditions, and develop their decision-making skills in challenging situations, thereby enhancing their overall operational readiness and situational awareness,” Downey says. “These tools can also reduce the cost and time required for pilot training, such as providing pilots with feedback on their performance and by identifying areas where they need additional training.”

Pfisterer explains eVTOL simulation works best when addressing the limited endurance of the aircraft and in general the management of vehicle batteries. “Prolonged hover periods, multiples landings in a short period of time and a big number of pilots can only be managed by using a simulator. Any practice of normal but also abnormal and emergency procedures in simulation will increase flight safety overall, and last but not least also reduce training cost. The return of investment in the highest level of training devices will be granted in a very short time and will increase fleet safety worldwide.”

Simulators are able to offer high-fidelity and physics-based replications of eVTOL operations, including the various critical phases of flight and maneuvers. The use of simulation facilitates repetitive practice, allowing pilots to develop muscle memory and hone their skills efficiently.

Courtney says this ensures confidence and familiarity for the trainees prior to their first live aircraft flight across a diverse set of missions. “Moreover, simulations are cost-effective, significantly reducing training expenses compared to real aircraft as well as more environmentally sustainable. Instructors can create diverse training scenarios, from navigating congested urban airspace to managing adverse weather conditions; ensuring pilots are well-prepared for a range of challenges. The ability to collect and analyze performance data also supports targeted feedback and continuous training.”

CAE launched the CAE 700MXR mixed reality flight simulator to prepare eVTOL pilots for the dynamic and evolving demands of the industry. The 700MXR series leverages CAE’s advancements in extended reality technologies to deliver a high fidelity, physics-based mixed reality flight simulator tailored for the AAM market. Mixed Reality (MR) is a technology that combines physical reality and digital environments to enable interactions with the real-world amongst virtual objects. 

The CAE 700MXR emulates flight characteristics and operational programs for single pilot operations, initially launched for the eVTOL market. The training device utilizes enhanced reality, high-precision head and hand tracking, and the accurate, tactile feel and physical experience of the aircraft’s flight controls and flight instruments and displays. The compact mini-motion platform allows for scalability and 360⁰ Field of View visuals deliver high-fidelity, physics-based immersive visuals for the trainees. Courtney says, “We are confident that the CAE 700MXR and similar advanced technologies will revolutionize flight training for single-pilot operations in complex urban settings.”

Elroy Air’s simulator environment has been an instrumental tool in aiding both flight training and testing by accurately representing aircraft behavior, limitations and performance. Via its HIL (hardware in the loop) and SIL (software in the loop) simulators it has been able identify critical power regimes, required power for different maneuvers, and evaluate aircraft handling qualities in different configurations to choose the best one optimized for both flight-and-failure cases before actually putting its aircraft at risk in real life. “Outside of the testing environment, it gives me as the pilot a sound understanding of how the aircraft is going to handle in real life, as well as building important muscle memory habits with the RC controller inputs, switches and sticks before flying the aircraft in real life,” Downey says.

CAE supports the idea of interim approvals and an expanded utilization of simulation for pilot training credit. Courtney says approving new simulators “in advance of the type certification of eVTOL aircraft will allow for advanced training of the pilot workforce resulting in their readiness once eVTOL aircraft achieve their type certification. The approval of cutting-edge virtual and mixed reality technology holds substantial promise for advancing AAM training.”

Issues with eVTOL Training

One of the most pressing issues with eVTOL pilot training is developing regulatory requirements for new pilots. CAE is proactively addressing this regulatory challenge with its dedicated regulatory affairs team, collaborating closely with various regulatory authorities and working groups. Its aim is to contribute valuable insights and actively participate in shaping the future of pilot training and licensing.

Downey explains that key issues that must be addressed in pilot training include “developing standardized training curricula and certification processes, establishing comprehensive safety protocols specific to eVTOL operations, integrating advanced flight control systems, and implementing effective human-machine interface designs to ensure pilot competence and to maximize passenger and public safety.

Pfisterer explains an issue could arise because eVTOL flying is a mix of helicopter and airplane operation, at low-level urban environments with a special micro climate, with special wind situations and landing areas between or even on top of buildings but also traditional international airports, where eVTOL will operate on dedicated landing pads but also on normal runways. To facilitate this, “We expect to have a combination of VFR day/night at the beginning, but then also add the IFR capability.”

Pfisterer believes that “flying the aircraft will only be the smallest part of the pilot´s duty; management of the mission is the main focus of every day´s pilot live. From day one in training we will train the pilots to understand the challenges in his/her daily role of mission manager. This will be accomplished by special line-oriented elements combined to an entire mission over the progress of the training course. [Also,] today´s training centers will over time be transferred into training networks that will be connected, having many small training devices decentralized and closer to the trainees.”

“The small devices and the lower operating cost will allow the trainee to increase the number of trainings spread over the year. Airport and area familiarization or requalification can be done much more efficiently in such small device or even at home, in a virtual training setup, all supported and controlled by a central training management system,” Pfisterer added.

FAA and eVTOL Pilot-Training Requirements

The FAA has launched a consultation on training requirements for pilots of new powered-lift aircraft. The U.S. air safety agency published the proposed rules via the Federal Register on June 2023 in a document called Integration of Powered-Lift: Pilot Certification and Operations. In July 2023, the FAA issued a final rule that updates the air carrier definition to add “powered-lift” operations to the regulations covering other commercial operations, such as airlines, charters and air tours. The FAA released an implementation plan providing the steps it and others will need to take to safely enable advanced air mobility operations in the near term. The “Innovate28” plan includes various components and the sequence they will occur in for operations to be at scale at one or more sites by 2028.

“These proposed rules of the sky will safely usher in this new era of aviation and provide the certainty the industry needs to develop,” says acting associate administrator for aviation safety David Boulter.

The FAA said the planned powered-lift rules are “designed to provide certainty to pilots and the industry on what the requirements and expectations will be to operate these aircraft once it is finalized.” The agency said the rules will spell out how pilots can earn ratings specific to each type of aircraft they fly.

For more information, go to FAA’s Advanced Air Mobility website: www.faa.gov/air-taxis

The post Educating Pilots On eVTOL Air Mobility And This New Generation Of Air Taxis appeared first on Avionics International.

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Israel Aerospace Industries Introduces New Jam Resistant GNSS System: COMPACT ADA – Reduced SWaP for Airborne Tactical Platforms – May 30

Graphic of the Compact ADA system. (Image: Israel Aerospace industries)

Tel Aviv, Israel – Israel Aerospace Industries (IAI) has unveiled Compact ADA, offering reduced Size, Weight and Power (SWaP), an advanced system that protects avionic systems from GNSS jamming.

The Compact ADA system maintains assured PNT (Position, Navigation and Timing) by overcoming GNSS jamming, and ensuring that tactical platforms can continue to operate with consistent GNSS availability as compared to most navigation, communication, and warfare systems which depend on the continuous availability of GPS/GNSS signals. However, the cheap, low-end equipment, can seriously degrade GNSS Position, Navigation and Timing (PNT) even to the point of total solution denial.

IAI has over 20 years of proven experience in supplying a wide range of GNSS Anti-Jam solutions for the most demanding requirements, and vast experience in integrating immune navigation solutions into airborne (manned and UAV), surface, maritime and guided munitions.

Compact ADA is a derivative of the ADA system adapted to air tactical platforms. The Compact ADA offers the benefits from the advanced immunity capabilities of ADA in tactical platforms. The ADA product portfolio, developed by IAI, is compatible with a broad range of satellite navigation systems (GNSS). Its state-of-the-art technology implements multiple mitigation methods and specialized digital signal processing algorithms. The system’s versatility facilitates the integration into numerous platforms. 

Jacob Galifat, General Manager of the IAI’s MALAM Division: “With the threats that GNSS faces today, these systems are a must for any platform using GPS, or any other Global Satellite Navigation Systems. Our operationally proven systems ensure the availability of GPS and GNSS-based systems, even in the most contested, EW-saturated battle space. Considering the operational challenges, this system has considerable export potential for many air forces and armies who experience GNSS jamming in combat zones.”

The post Israel Aerospace Industries Introduces New Jam Resistant GNSS System: COMPACT ADA – Reduced SWaP for Airborne Tactical Platforms – May 30 appeared first on Avionics International.

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SatixFy and SCOTTY Group Partner to Supply In-Flight Connectivity Terminals – May 22

The Onyx Aero in-flight connectivity terminal. (Image: SatixFy)

Rehovot, Israel, May 22, 2024 – SatixFy Communications Ltd. (“SatixFy”) (NYSE American: SATX), a leader in next-generation satellite communication systems based on in-house-developed chipsets, announced a collaboration and the first order of its in-flight connectivity (IFC) terminals, Onyx, with SCOTTY Group Austria GmbH (“SCOTTY”), a leading manufacturer and integrator of communication solutions, including in-flight connectivity for aircraft.

The Onyx is an all-inclusive, high-performance satellite communications aero terminal designed for use on small to mid-sized aircraft, delivering superior in-flight connectivity. Characterized by its compact form factor, the Onyx features SatixFy’s cutting-edge digital beam-forming technology, along with multi-orbit connectivity capabilities.

SCOTTY placed an initial order for SatixFy’s Onyx terminal and associated product support. SCOTTY will integrate SatixFy’s IFC terminals into its communication solutions for aircraft that previously lacked connectivity due to limitations of terminal sizes, enabling high-end, reliable satellite communication for its customers.

The first system is expected to be installed on a business aircraft in the second half of 2024.

Nir Barkan, Acting Chief Executive Officer of SatixFy, expressed his enthusiasm about the recent collaboration with SCOTTY, stating, “This partnership with SCOTTY and the first order of our Aero terminal is a major milestone for SatixFy. It brings us a step closer to our vision of becoming the leading enabler of reliable satellite-based communications. By combining SCOTTY’s expertise and resources with our market leading satellite communications technology, we are very well positioned to meet the fast-growing market demand for exceptionally reliable, high-speed communication solutions for the aviation sector.”

Joachim Kalcher, Chief Executive Officer of SCOTTY, added that this partnership is a natural fit for a company specialized in critical communication solutions, “With our expertise in secure communication in remote and challenging environments, SCOTTY has found a perfect match in SatixFy. Together, we can provide a comprehensive solution to our customers in the aero market—whether for government, business jets, or commercial airlines. We can also offer our expertise in installing both antennas and indoor equipment for various applications including cabins, cockpits, UAVs, and any other future needs. We are looking forward to a very long and successful partnership with SatixFy and its products.”

The post SatixFy and SCOTTY Group Partner to Supply In-Flight Connectivity Terminals – May 22 appeared first on Avionics International.

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GE Continues Work on XA100 for Future Combat Aircraft – May 8

Pictured is the GE XA100 on the test stand in Evendale, Ohio (GE Aerospace Photo)

GE Aerospace has finished a fourth round of testing on the XA100 adaptive cycle engine “to gather additional data and advance this next-generation technology for future combat aircraft.”  the company said on May 8.

Last November, GE said that it had performed third phase testing of the second XA100 at its Evendale, Ohio plant outside of Cincinnati over the summer.

The following month, GE “completed a major design review” of the second engine, the XA102, which “will now continue toward a prototype engine test” as part of the U.S. Air Force’s Next Generation Adaptive Propulsion program (NGAP), the company said on May 8.

“The combination of digital design and learnings from GE Aerospace’s first adaptive cycle engine will allow XA102 to deliver the required propulsion performance key to enabling future air dominance capabilities,” GE said.NGAP engine prototyping with GE and RTX‘s Pratt & Whitney is a change from the previous strategy, which envisioned just one engine provider in the prototyping phase. That change came because of increased NGAP funding, the Air Force has said.

NGAP is to outfit the Air Force’s Next Generation Air Dominance manned fighter.

“Adaptive cycle engines are critical to ensure U.S. combat aircraft maintain their superiority by providing 30 percent greater range and significantly more thermal management compared to today’s most advanced combat engine,” GE said on May 8.

A version of this story originally appeared in affiliate publication Defense Daily.

The post GE Continues Work on XA100 for Future Combat Aircraft – May 8 appeared first on Avionics International.

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Joby Progresses to Next Phase of Aircraft Flight Test Program – May 2

Santa Cruz, CA, May 02, 2024 — Joby Aviation, Inc. (NYSE:JOBY), a company developing electric air taxis for commercial passenger service, today announced it has successfully completed its pre-production prototype flight test program and is now focused on the next phase of flight testing, during which the Company will use its production prototype aircraft to prepare for upcoming for-credit flight testing.

Joby first began flying full-scale pre-production prototype aircraft more than four years ago, and the Company’s two pre-production aircraft subsequently completed more than 1,500 flights, spanning a total distance of over 33,000 miles, including more than 100 flights with a pilot onboard. The second pre-production aircraft also completed the first electric air taxi exhibition flights in New York City, when it flew from the Manhattan Downtown Heliport over the Hudson River in November 2023.

“Over the course of this test program, our team has shown the world how real electric air taxis  are, with tens of thousands of miles flown using today’s battery technology,” said JoeBen Bevirt, Founder and CEO of Joby. “Our pre-production aircraft were the second full-scale generation of Joby’s design, and their performance met or exceeded our predictions throughout the program, successfully achieving our targets for maximum range, speed, and a revolutionary acoustic footprint.”

“Successfully completing this rigorous test program has allowed us to proceed to ramp production with full confidence, the second of which rolled off the line at our production line in Marina, California, earlier this week.  Learnings from the flight test program have been invaluable to our certification program and to the broader development of regulatory frameworks around electric VTOL aircraft, validating the performance, safety, and acoustics of our design while providing insight into daily operations and maintenance.”

In 2021, Joby demonstrated a flight of 154.6 statute miles on a single charge, including a vertical take-off and landing.

In 2022, Joby partnered with NASA to measure and confirm its aircraft’s revolutionary quiet acoustic footprint, which the Company believes will barely be heard in cruise flight against the ambient environment of cities. Joby also demonstrated speeds exceeding 200 miles per hour and flight at altitudes exceeding 10,000 feet above mean sea level.

In 2023, Joby expanded its flight test program to include flights with pilots on board the aircraft, as well as completing the first-ever exhibition flight of an electric air taxi in New York City. Joby also trained four U.S. Air Force pilots to become the first Air Force personnel to fly an eVTOL aircraft through a full flight profile, including the transition from vertical to wingborne flight, as sole pilot-in-command.

And in 2024, in partnership with the Federal Aviation Administration (“FAA”), Joby completed 31 pilot-on-board flights in two days, demonstrating the aircraft’s operational characteristics and precision landing capabilities.

James Denham, Joby Chief Test Pilot, commented: “Over the past four years, we thoroughly tested and studied our aircraft in flight, from precision landing and outwash to human factors. We often flew multiple flights per day, demonstrating our ability to fly in a wide variety of weather and operational conditions. As a result, we have the most experienced and professional eVTOL flight test team in the world, and I’m proud to be a part of this program.”

Joby’s second pre-production prototype aircraft will be used for research-and-development on future aviation technologies.

Joby’s electric air taxi is designed to carry a pilot and four passengers at speeds of up to 200 mph, offering high-speed mobility with a fraction of the noise produced by helicopters and zero operating emissions.

The post Joby Progresses to Next Phase of Aircraft Flight Test Program – May 2 appeared first on Avionics International.

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Textron Aviation Opens Expanded Parts Distribution Center – May 3, AIN

Textron Aviation recently held the grand opening of its expanded global parts distribution center in Wichita, Kansas that adds 180,000 square feet of floor space and new package sorting facilities, AIN reported. The expanded facility, called P43, now has 245,000 square feet and stocks about 15,000 active part numbers for new and existing models of Cessna, Beechcraft and Hawker aircraft. The company said this consolidates potentially five different buildings that served as warehouse space, which  lets them reconfigure the other buildings for other needs.

The post Textron Aviation Opens Expanded Parts Distribution Center – May 3, AIN appeared first on Avionics International.

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Eve Reports Progress in Building Full-scale eVTOL Prototype – May 10, AIN

Eve Air Mobility released images to show progress in building the first full-scale proof-of-concept four-passenger eVTOL aircraft it plans to bring to the market in 2026, AIN reported. The airframe is being assembled at a facility in Taubate, Sao Palu state in Brazil. The aircraft has eight propellers for vertical flight and fixed wings for larger range curing the cruise phases of flight. The aircraft is expected to have a range of about 52 nautical miles and the company reportedly has letters of intent for almost 3,000 prospective sales.

The post Eve Reports Progress in Building Full-scale eVTOL Prototype – May 10, AIN appeared first on Avionics International.

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