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Lockheed Martin Advances to Phase III of Army Flight School Next

Lockheed Martin selects Robinson R66 NxG helicopter and advanced simulation for US Army Flight School Next Phase III bid.

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This article is based on an official press release from Lockheed Martin.

Lockheed Martin Advances to Phase III of Army Flight School Next, Taps Robinson R66 NxG

Lockheed Martin announced on February 4, 2026, that it has successfully advanced to Phase III of the U.S. Army’s Flight School Next (FSN) competition. As part of its bid to become the prime contractor for the Army’s Initial Entry Rotary-Wing (IERW) Training program, the company has selected the Robinson R66 NxG helicopter as its primary training platform.

According to the company’s official statement, the bid positions Lockheed Martin as a “prime training systems integrator.” The proposal combines the commercially proven Robinson airframe with Lockheed’s proprietary simulation and training management technologies. The FSN program aims to replace the Army’s current fleet of twin-engine UH-72 Lakotas with a more cost-effective, contractor-owned solution.

The “NxG” Platform and Training System

Lockheed Martin’s proposal relies on the Robinson R66 NxG (“Next Generation”), a modern iteration of the standard turbine helicopter. While the airframe is supplied by Robinson Helicopter Company, Lockheed Martin would serve as the prime contractor responsible for the entire training enterprise, including the syllabus, logistics, and instruction.

The R66 NxG features the Rolls-Royce RR300 turbine engine, which Lockheed Martin highlights for its reliability and lower operating costs compared to the current twin-engine training fleet. Key upgrades for the “NxG” configuration include:

  • Glass Cockpit: Standard Garmin G500H TXi touchscreen flight displays and GTN 750Xi navigators to prepare students for digital military cockpits.
  • Safety Enhancements: A crashworthy fuel system, impact-resistant polycarbonate windshield, and cockpit video/audio recording for debriefing.
  • Climate Control: Standard air conditioning, a critical requirement for operations at Fort Novosel (formerly Fort Rucker), Alabama.

David Smith, President and CEO of Robinson Helicopter Company, emphasized the domestic roots of the platform in the press release:

“Our selection of Robinson brings a safe, proven and innovative platform to the table… The R66 offers a modern, American-made solution.”

Integration with Advanced Simulation

Beyond the hardware, Lockheed Martin is pitching a “Turnkey Training System” that leverages its “21st Century Security” vision. The company states that its solution incorporates advanced modeling and simulation to streamline pilot production.

Specific technologies cited in the announcement include LM-LIFTâ„¢, a data-driven learning management system designed to track student performance, and TRAESERâ„¢, a “digital twin” of the flight school. These systems are intended to optimize aircraft maintenance scheduling and resource allocation to ensure the high throughput required by the Army.

Todd Morar, VP of Air and Commercial Solutions at Lockheed Martin, stated:

“For years we have been refining a comprehensive solution that aligns with the Army’s vision for a modern, affordable and high-quality training pipeline that will produce fundamentally better aviators.”

Program Context and Competitive Landscape

The Flight School Next program represents a significant shift in the Army’s training philosophy. By moving to a Contractor-Owned, Contractor-Operated (COCO) model, the Army seeks to purchase “training services” rather than owning the aircraft and facilities directly. The program requires the training of 900 to 1,500 pilots annually over a 26-year period of performance.

While Lockheed Martin’s press release focuses on its own advancement, broader industry context indicates a competitive field. The program aims to replace the UH-72 Lakota to reduce operating costs while modernizing the curriculum. A final contract award is expected by September 30, 2026.

AirPro News Analysis

Lockheed Martin’s advancement to Phase III highlights a strategic divergence in the competition. By branding the aircraft as the “R66 NxG,” Lockheed appears to be differentiating its offering from competitors who may be pitching the standard R66 airframe. The “NxG” designation likely serves to emphasize the integration of Lockheed’s high-tech simulation ecosystem with the airframe, framing the helicopter as a component of a larger “system” rather than a standalone commodity.

Furthermore, the shift back to a single-engine trainer for initial entry students suggests the Army is prioritizing cost-efficiency and fundamental “stick and rudder” skills. Lockheed’s emphasis on its global experience, citing similar military flight school programs in the UK, Australia, and Singapore, suggests it is banking on its reputation as a large-scale logistics and systems manager to win the contract over service-focused or OEMs-focused rivals.

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Sources: Lockheed Martin Press Release

Photo Credit: Lockheed Martin

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Training & Certification

Coptersafety to Open Oslo Helicopter Training Center in 2028

Coptersafety announces a new Level D simulator facility near Oslo Gardermoen Airport, opening in 2028 to expand Nordic training capacity.

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Coptersafety will construct a new purpose-built helicopters pilot training center in Oslo, Norway, expanding its Nordic footprint to meet rising global demand for specialized rotorcraft instruction.

In a press release issued on June 24, 2026, the company announced that the new facility is scheduled to open in 2028. Located near Oslo Gardermoen Airport (OSL), the center will provide additional capacity as Coptersafety projects its existing Helsinki headquarters will reach maximum simulator utilization within two years.

Addressing capacity constraints

The decision to build a second Nordic location stems directly from increased training volume across the European aviation sector. Coptersafety Chief Executive Officer Hannu Marjoniemi stated that the impending capacity limit at the Helsinki facility necessitated the infrastructure investment.

“We are extremely happy to be taking our first step in expanding our global footprint with additional training opportunities for pilots worldwide. Our Helsinki headquarters and training center will be at maximum simulator capacity in the next two years, yet the need for pilot training in Europe and globally is only increasing,” Marjoniemi said. “Coptersafety’s new facility in Oslo will provide operators a choice in location, alongside our Helsinki headquarters and training center, and new simulator aircraft platforms.”

The Oslo site is designed to operate in tandem with the Helsinki headquarters, allowing the company to distribute its training load while offering operators geographic flexibility.

Equipment and operational focus

The Oslo center will focus heavily on specialized mission profiles, including Helicopter Emergency Medical Services (HEMS), Search and Rescue (SAR), and offshore energy operations. To support these sectors, the facility will house Level D full flight simulators configured for the Airbus H135 and Airbus H145.

The expansion aligns with a broader industry shift toward simulator-based training for high-risk rotorcraft missions. Utilizing full flight simulators allows specialized crews to practice complex emergency procedures while reducing the flight hours and associated risks of live aircraft training. Recent industry developments reflect this trend, with organizations like Poland’s medical air rescue service recently expanding their own simulator capabilities for HEMS crews.

AirPro News analysis

We view the selection of Oslo as a strategic positioning move for Coptersafety. Norway serves as a major hub for North Sea offshore helicopter operations and maintains robust SAR and HEMS networks across challenging terrain. By placing Level D simulators for the Airbus H135 and H145 directly in this market, the company can capture regional operators who previously had to dispatch crews to Finland or other European training centers. This proximity reduces operator travel costs and crew downtime, making the Oslo facility a highly competitive option for Scandinavian and North Sea rotorcraft operators.

Sources: Coptersafety

Photo Credit: Coptersafety

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Training & Certification

U.S. Air Force Accepts First 8 Boeing T-7A Training Simulators

The Air Force accepted eight T-7A Ground Based Training System devices on June 12, 2026, initiating aircrew training at Joint Base San Antonio-Randolph.

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The U.S. Air Force officially accepted the first eight Boeing T-7A Ground Based Training System devices at Joint Base San Antonio-Randolph in Texas on June 12, 2026, clearing the way for initial maintenance and aircrew training.

According to a June 24 press release from the Air Force Life Cycle Management Center (AFLCMC), the formal transfer of the simulators to the Air Education and Training Command (AETC) marks a critical step for the T-7A Red Hawk Advanced Pilot Training program. The T-7 architecture is the first combined aircraft and simulator system designed from its inception with Embedded Training and Integrated Live, Virtual, and Constructive (I-LVC) capabilities.

A defining feature of the system is its “one-push” software architecture. The simulators utilize the exact same operational flight Software as the physical aircraft. This design allows student pilots to interact with identical pilot-vehicle interfaces on the ground before they transition to live flight.

Transitioning to operational training

The initial eight Ground Based Training System (GBTS) units and their associated support equipment began arriving at Joint Base San Antonio-Randolph in October 2025. Following months of setup and testing, the official acceptance triggers the next phase of the program’s deployment.

“The official transfer of the devices to AETC leads into the start of Type 1 Maintenance and Aircrew Training,” said Michael Casey, Training Systems Branch Chief for the T-7 Red Hawk Division at AFLCMC. “This training is the next step in preparations to support Initial Operational Test & Evaluation and the eventual start of advanced pilot training.”

The Air Force plans to acquire a total of 46 GBTS units. Deliveries for the remaining 38 devices are scheduled between 2027 and 2035. These units will be distributed to other pilot training installations, including Columbus, Laughlin, Vance, and Sheppard Air Force Bases.

Production approval and strategic focus

The simulator acceptance follows a major programmatic hurdle cleared earlier in the year. On April 23, 2026, the T-7A Red Hawk program received Milestone C approval, authorizing low-rate initial production (LRIP). Following this approval, the Air Force awarded Boeing a $219 million Contracts covering the first 14 aircraft, along with spares and support equipment, according to reporting by Defense News.

While the Air Force program advances, Boeing has opted to limit the T-7A’s immediate expansion into other military branches. On the same day the Air Force accepted the simulators, Boeing confirmed it would not submit the T-7A for the U.S. Navy’s Undergraduate Jet Training System (UJTS) competition, which seeks a replacement for the T-45 Goshawk. Breaking Defense reported that a Boeing spokesperson cited the Navy’s specific engine qualification requirements for the F404 powerplant. Meeting those requirements would necessitate a long-cycle development effort, which Boeing determined would hamper the ability to quickly reach initial operational capability for the Navy.

AirPro News analysis

We view the “one-push” software architecture as the most consequential element of the T-7A training system. Historically, military flight training programs have struggled with configuration disparities between physical aircraft and ground-based simulators. When an aircraft receives a block upgrade, simulators often lag behind, forcing instructors to teach workarounds for software discrepancies. By utilizing identical operational flight software across both domains, the T-7A program eliminates this training friction.

Additionally, Boeing’s decision to withdraw from the Navy UJTS competition suggests a strategic prioritization. By avoiding a complex, parallel development track for a navalized engine variant, the Manufacturers can focus its engineering resources entirely on executing the Air Force LRIP contract and resolving any remaining technical hurdles in the baseline T-7A program.

Sources: Air Force Life Cycle Management Center

Photo Credit: Air Force Life Cycle Management Center

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Training & Certification

FAA Breaks Ground on $8.3M AAM Testing Facility in Oklahoma City

The FAA and DOT broke ground on the V-PAR facility in Oklahoma City to support Advanced Air Mobility research and NAS integration.

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The U.S. Department of Transportation (DOT) and the Federal Aviation Administration (FAA) broke ground on an $8.3 million testing and training facility in Oklahoma City on June 25, 2026, dedicated to integrating Advanced Air Mobility (AAM) aircraft into the National Airspace System.

Located at the Mike Monroney Aeronautical Center, the Vertical Take-Off and Landing Procedures and Analysis Range (V-PAR) will provide a controlled environment for regulators and industry partners to evaluate electric and hybrid vertical takeoff and landing (eVTOL) designs. According to an FAA press release, the facility is designed to address the specific technical and operational challenges associated with the emerging AAM sector.

Facility capabilities and research focus

The physical footprint of the V-PAR site will include a dedicated vertiport, a covered hangar, and a small control-center building. These assets will support a range of testing and training activities required to establish Safety standards for new aircraft configurations.

Planned research at the Oklahoma City site will focus on aerodynamic and operational phenomena unique to VTOL aircraft. The FAA stated that studies will examine wake separation, downwash and outwash effects, radiofrequency interference, and standard vertiport operations.

Regulatory perspective and integration

The development of the V-PAR facility aligns with broader federal efforts to prepare the National Airspace System for commercial AAM operations. Regulators are currently working to adapt existing aviation safety frameworks to accommodate novel electric and hybrid Propulsion systems.

“The V-PAR is a critical step in helping the FAA better understand how to integrate advanced air mobility aircraft safely into the National Airspace System,” Department of Transportation Deputy Secretary Steven Bradbury said in the release. He noted that the site will strengthen the agency’s ability to conduct research and train personnel.

FAA Deputy Administrator Chris Rocheleau emphasized the necessity of maintaining established safety margins as new technologies enter the market.

“As advanced air mobility technologies continue to evolve, the FAA must ensure they meet the same high safety standards expected throughout the National Airspace System. The V-PAR will help us gather the data and operational insights needed to support their safe integration into the nation’s airspace,” Rocheleau said.

AirPro News analysis

The $8.3 million investment in the V-PAR facility indicates a tangible shift from theoretical rulemaking to practical, data-driven testing for the AAM sector. By establishing a dedicated physical space for evaluating downwash, outwash, and vertiport operations, we see the FAA positioning itself to generate the empirical data necessary for final Certification standards. This facility will likely become a central hub for original equipment OEMs seeking to validate their operational models alongside federal regulators.

Sources: Federal Aviation Administration

Photo Credit: Federal Aviation Administration

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