Tag: Orlando

USAF Science & Technology Chief: New Urgency to Embrace Digital Transformation to Strengthen the Force’s Resiliency and Ability to Compete Against Near-Peer Rivals

By Anne Wainscott-Sargent, AIAA Communications Team
Watch On Demand

ORLANDO, Fla. – The ability to field critical capabilities in the U.S. Air Force (USAF) has never been more urgent, a senior Air Force official told AIAA SciTech Forum attendees.

“We are in competition with near-competitive nations and China in particular is now on par to deliver new capabilities in seven years or less,” said Kristen Baldwin, deputy assistant secretary of the Air Force.

She noted that in comparison, USAF programs take an average of 16 years to deliver new capability. “We see digital transformation as a true disruptive business practice that we can bring to bear. We have to invest now – we have to invest in new capabilities.”

Baldwin, speaking via Zoom on the second day of the forum, oversees a $5 billion budget across multiple research sites worldwide, focusing on digital engineering, cyber resiliency, and the service’s science and technology portfolio.

She described the Air Force’s digital materiel management approach, which includes six key initiatives to enhance data security, training, and IT infrastructure. Baldwin also outlined the integration of digital strategies across the Air Force and Space Force, including putting the government’s Modular Open Systems Architecture (MOSA) and other government reference architectures as requirements in contracts. MOSA is the cornerstone of new and legacy platforms and weapons.

Baldwin also mentioned the five pillars of the Air Force’s engineering strategy that has been embraced by U.S. allies, particularly in the UK and Australia. Her team’s Digital Materiel Management (DMM) approach has led to both schedule acceleration and technology improvements.

She stressed the need for continuous engagement with industry partners and international collaborations to drive digital transformation forward. The USAF has created two digital consortia – the Industry Association Consortium (IAC) and the Digital Acceleration Consortium (DAC). The IAC provides an open collaborative opportunity for the defense industrial base to help identify barriers and develop solutions associated with the rapid, full-scale adoption of DMM. The DAC recommends solutions modernizing IT infrastructure, compatible Integrated Digital Environments, secure access to data, and common data standards, policy, and contracting language.

During the Q&A, Baldwin agreed that as government goes more digital, it will be more vulnerable to cyber attacks.

“We have to implement that cyber resilience to really manage our data. We can’t rely on just network and perimeter defense. We’ve got to be able to implement and manage that security of our data, so these environments we’re building and the way we classify that data is a key foundational element of our digital transformation approach. We have to be agile in the way we can maneuver to respond to cyber threats. We have to be continuously aware and adapt,” she said.

The final question ended on a fun note: What did Baldwin consider the most feasible technological innovation from the Star Wars universe that could be developed within the next 50 years, and what challenges would engineers and scientists face in making it a reality?

“I love the idea of robotics and image holograms. The advancement of robotics as well as holograms can really help to transform the way that we support our forces. When we think of this urgency in national security, we’re going to find ourselves in situations where we are not going to have the ability to wait for delivery of future capability. We’ll have to reset and regroup in place.”

Responding to Baldwin’s presentation, Terry Hill, digital engineering program manager for NASA in Washington, D.C., said, “It’s good to hear the Air Force’s plan. Their approach to MOSA and their commitment to moving to a digital ecosystem is refreshing because that’s where NASA is wanting to go and we’re trying to work across agencies to best leverage all our different investments.”

Hill added that the Air Force’s emphasis on cybersecurity also benefits civil agencies like NASA. “Focusing on different areas and sharing solutions is definitely the way forward,” he said.

On Demand Recording Available

Watch Full Session On Demand

NASA Calls for Continuous American ‘Heartbeat’ in LEO

New Strategy for Sustaining U.S. Presence in Low Earth Orbit Announced

By Anne Wainscott-Sargent, AIAA Communications Team

ORLANDO, Fla. – When NASA retires the International Space Station by the end of 2031, the space agency intends for the United States to not just have capability in microgravity, but to have a continuous “heartbeat” in low Earth orbit, emphasized NASA Associate Administrator Jim Free as he unveiled NASA’s Low Earth Orbit (LEO) Microgravity Strategy during the 2025 AIAA SciTech Forum in Orlando.

Watch Full Session On Demand

The announcement follows last month’s release of NASA’s publication of its final LEO goals and objectives, which inform its long-term strategy to advance microgravity science, technology, and exploration. The framework aims to sustain human presence in orbit, drive economic growth, and strengthen international partnerships.

“A continuous heartbeat is what we have had today [with the ISS] for 24 years – a true, unbroken, continuous presence, where there’s always a person living and working in space,” said Free. “It’s written in US policy. It affects our national posture. Truthfully, if we don’t have continuous heartbeat, we risk not being the partner of choice for our international partners. We risk ceding low Earth orbit to others.”

Speaking to a global gathering of 6,000+ engineers and other technical aerospace leaders from commercial firms, government and academia, Free outlined NASA’s strategy for ensuring this continued presence, even as the agency prepares to support the transition of LEO.

Free, an Ohio native who began his NASA career in 1990 as a propulsion engineer at Goddard Space Flight Center, was inducted as a new AIAA Associate Fellow this year. He discussed the role of the ISS as a “beacon of what humanity can do when we work together.”

“For over 24 years, the ISS has allowed us to partner and continuously live and work off the planet,” said Free. “Its value goes beyond symbolism. It has been a cornerstone of our human space flight program…laying the foundation for everything we’re building toward today.”

To date, the ISS has hosted nearly 4,000 research and educational investigations from over 100 countries.

He cited examples of research on the ISS that has driven better understanding of how the human body reacts to being in space for long time periods as well as biopharma breakthroughs such as protein crystal growth that has improved the formulation of cancer drugs. One investigation with Merck has resulted in better ways to deliver cancer drugs using an injection instead of an IV.

NASA’s LEO strategy remains integral to its broader ambitions for deep space exploration. The microgravity environment in LEO offers a cost-effective, easily accessible proving ground for technologies and research necessary for human missions to explore the solar system.

As part of its LEO sustainment strategy, NASA will award contracts through the agency’s in-space production applications to support commercial development of new and promising technologies for in space manufacturing of advanced materials and products for use on Earth, as well as semiconductor materials and optical fiber production. According to Free, a key need from industry partners is better environmental control and life support systems on spacecraft or habitats.

“With most of the journey to Moon and Mars occurring in microgravity, the objectives give the opportunity to continue vital human research, test future exploration systems, and retain the critical skills needed to operate in the microgravity environment,” stated NASA publicly in late December.

NASA needs the United States to continually operate in LEO as it launches long-duration trips as a warm-up to Mars, and to ensure there are affordable and frequent commercial transport options to support the traffic to and from low Earth orbit. The agency plans to issue a second RFP this June for its Commercial Low Earth Orbit Development Program, designed to support the development of commercially owned and operated LEO destinations from which NASA, along with other customers, can purchase services and stimulate the growth of commercial activities in LEO.

“Our primary need is to mitigate risk for future trips to Mars with long duration flights in LEO of six months to a year. With the time we have left on ISS, we won’t have a statistically significant population of six-to-12-month missions to properly understand the risks of going to and returning from Mars,” he told AIAA SciTech Forum attendees.

The final framework includes 13 goals and 44 objectives across seven key areas: commercial low Earth orbit infrastructure, operations, science, research and technology development for exploration, international cooperation, workforce development and STEM engagement, and, public engagement.

Free said a key component of developing the strategy was weighing input from industry partners, whose feedback has served as “a cornerstone of the strategy.” NASA received 1,800 pieces of input during two workshops hosted in the UK and in Washington, D.C. last year.

“The comments we got were incredibly helpful,” said Free, who indicated the feedback validated the strategy. One piece of input from European space partners was the desire for faster scientific return, and as a result, “we added a new goal and objective around rapid LEO science to help us increase the pace of research.”

The input also led to a new objective for public engagement focused on collaborating NASA’s communication efforts to reach new audiences.

The new LEO strategy supports the United States’ national posture, or global standing as a leader in space.

During the Q&A, Free touched on a variety of topics, including NASA’s commitment to going to the moon, the agency’s digital engineering approach, the most exciting impact of AI on NASA’s work, and advice to AIAA’s technical committees and the new generation of aerospace workers.

He said AIAA remains an invaluable partner to NASA and its technical committee a valuable source of free-flowing discussions and ideas. He urged AIAA members to give feedback on the second draft RFP when it comes out.

“We need the feedback so the Commercial LEO Destinations program can be better,” he said.

Free also reiterated how important it is for the United States to continue to lead in space.

“If you try and think about a world where we do not lead in space – I have not experienced that in my lifetime, and I don’t want to,” he concluded.

Following the presentation, Karen Barker, an AIAA member since 1993, called NASA’s strategy for a sustained presence in LEO “very encouraging.”

“He explained why LEO is so important for us – a pillar on which to build to go other places. It’s extremely important that we keep our heartbeat in LEO,” she said, adding that she was pleased how open NASA is to getting feedback from industry, both on the LEO strategy and the upcoming RFP.

“It’s so important for us as a community to do that,” said Barker, CEO of Alabama-based BRAHE Corporation, a consulting firm that serves defense and aerospace clients.

On Demand Recording Available

Watch Full Session On Demand

# # #

Read NASA’s vision for the next generation of human presence in low Earth orbit and how the agency envisions achieving this future.

AFRL Digital Transformation Champion Urges People to Embrace, Not Fear AI

By Anne Wainscott-Sargent, AIAA Communications Team

ORLANDO, Fla. – If Alexis Bonnell had her way, every person would embrace Artificial Intelligence (AI) fearlessly as a tool that gives them back “minutes for their mission” and enables them to “tackle the toil” of mundane work tasks.

The charismatic former Googler, now serving as chief information officer and director of Digital Capabilities Directorate for the Air Force Research Lab (AFRL), believes technology fails when it fails to serve people.

Watch Full Session On Demand

While AI and generative AI promise to bring new efficiencies to all industries and in many instances, reinvent how work is done, it also is a transformative force that many people fear will take away their livelihoods. According to Bonnell, the way the work world packages and frames AI makes it difficult for people to accept the tool.

The visionary behind AFRL’s digital transformation doesn’t talk or act like a typical government executive. Speaking before a standing-room-only crowd at the 2025 AIAA SciTech Forum, she stood out among the room of business-dress-attired engineers and managers, wearing a red top, dark jeans and star-studded knee-high boots. She donned multiple black rubber wristbands with her favorite AI catch phrases that she gave away as keepsakes to inquisitive attendees following her talk.

Bonnell’s presentation included advice on bringing about necessary cultural change in how workers and managers view AI, using insights of what she’s learned from her team’s rollout of NIPRGPT, AFRL’s AI Research Platform to explore the power of Generative AI technology. Launched in June, NIPRGPT’s base of volunteer users grew to about 80,000 in four months, reported InsideDefense. Interest in access to AI tools across the Department of Defense shows no signs of slowing.

In a June 2024 news release announcing the tool, Bonnell noted that “changing how we interact with unstructured knowledge is not instant perfection; we each must learn to use the tools, query, and get the best results. NIPRGPT will allow Airmen and Guardians to explore and build skills and familiarity as more powerful tools become available.”

To the AIAA SciTech Forum’s technical audience, she cautioned that some of her insights may be wrong in six months and “that’s okay…. We’re in an era where we may not have the time for the right answer, so we have to become comfortable with ‘right for now,’ be willing to learn and pivot,” she said. She added that when she thinks about generative AI, she doesn’t think about it as a source of answers, but “as a source of options.”

In answering why the world is clamoring to AI tools now, Bonnell said it’s important to realize that “we now live in a fundamentally different age” – one where people in leadership roles must make decisions and adapt quickly and pivot as conditions change. Consider that 90% of the world’s data was created in the last three years, with 94% of it what Bonnell called unstructured “deluges.”

A sign of the changing times is also evident in battlefield decision-making trends. In the war between Russia and Ukraine, Bonnell said the time frame for Russia countering Ukraine’s software has shrunk, in some cases, to only two weeks. That kind of speed requires new information tools and the ability to make decisions fast. As a result, “we have to think about our technology differently than we did before.”

Bonnell dislikes the mixed messages people have historically received about AI: “We tell people we trust you with a weapon, with a $100M budget, with a security clearance and lots of sensitive information, but we don’t trust you with ChatGPT. What are we actually telling people?” she questioned. “It’s important that we make people feel like they are enough, that they’ve got this, that they are capable, and that we trust them to use tools in the right way. Our future as humans is constant adaptation, the only group that benefits when we are afraid of our own technology is the adversary.”

The technologist noted that the world is not communicating the value of AI in the right way; instead, the first thing people hear is that it’s really complicated, technical, and hard. “That kind of tells someone, ‘You’re not smart enough.’”

She urged a change in the AI narrative and a recognition that as public servants and military personnel, they are showing up to their jobs to be intentional and responsible.

The AFRL leader emphasized the main job of AI in its first phase of human adoption is to simplify and shave off time of mundane work, so people can gain back “minutes for their mission.” That’s exactly what the coders and developers on the AI Research Platform have realized: they report that they have gotten between 25–85% in productivity return using AI tools, Bonnell said.

Bonnell noted that AI and genAI are fundamentally different than other technologies because of the level of intimacy of knowledge that the tools deliver.

“Users get to collect information and the data that they think is relevant and then they use the tool to have a curiosity-based relationship with that data.”

Bonnell has observed at AFRL that her team is leveraging genAI to create a “knowledge universe” around themselves without needing to ask her for information, a discovery that has prompted her to rethink her role as a leader. She challenged other people in CIO roles to be similarly introspective: “For those of in roles like CIOs, it’s a question of how are we going to show up? Are we going to be a gatekeeper or are we going to be a facilitator? There’s a lot of interesting things this is putting into motion.”

In her case, Bonnell is looking at how she can get out of the way of this curiosity journey. “How do I foster the ability for someone to need me less and be able to have a dynamic relationship with knowledge?”

After the presentation, several attendees expressed their appreciation for Bonnell’s take on the state of AI attitudes, workplace culture, and the need to lead differently.

“I like how she talked about coming from the direction ‘see what we can do here’ instead of from a caution perspective of ‘I don’t know if we can do that’ to an attitude of ‘let’s figure out how we can make this work,’” said Christine Edwards, a fellow of AI and Autonomy at Lockheed Martin, whose work includes providing cognitive assistance for firefighters and looking at how to use AI to improve spacecraft operations.

Edwards also enjoyed Bonnell’s insights about trust and AI. “She said it’s less about whether I trust this new technology and more about ‘do I have the confidence that it’s going to have the performance I need for this particular part of my mission?’ I really like that perspective shift.”

John Reed, chief rocket scientist at United Launch Alliance, said he appreciated that Bonnell provided tools for mitigating some of the fear the workforce has about AI. “That’s helpful to think through the stages and the fact that there are going to be people who are concerned, ‘Is this going to eat my job?’ It’s really an augmentation technology just like machine learning. It’s best employed when it’s done to augment the algorithms we’re doing today to make it more effective,” he explained.

The talk also resonated deeply with Marshall Lee, senior director of business development at Studio SE Ltd., a consulting firm focused on model-based systems engineering (MBSE) training and coaching.

“Us engineers are all about the tool, the technology, the formula, the detail. She’s really addressing the changes in brain chemistry and emotion [necessary] for the adoption of the technology,” said Lee. “She’s actually saying you have to change the psychology of the person first before they are going to adopt the new technology. It’s all about that emotion and behavior change and understanding people, starting with where they are.”

On Demand Recording Available

Watch On Demand

Aerospace America: Advanced Air Mobility Founders Show Trust in their Technology

ORLANDO, Fla. – Aerospace America reports, “The ultimate vote of confidence in the design of an electrified aircraft could be when the founder climbs aboard the craft and goes airborne. The leaders of developers of two such aircraft gave personal testimonials here about doing just that.”
Full Story (Aerospace America)

Hypersonics Chief Details Journey of Building the World’s Most Speed-Defying Aircraft

2025 Durand Lecturer Delves into the History and Future Prospects of Supersonic Systems

By Anne Wainscott-Sargent, AIAA Communications Team

ORLANDO, Fla.– Kevin Bowcutt has spent over four decades advancing the field of hypersonic flight, notable for achieving speeds greater than five times the speed of sound, or faster than Mach 5.

As this year’s recipient of the AIAA Durand Lectureship for Public Service, Bowcutt, who serves as principal senior technical fellow and chief scientist of Hypersonics at The Boeing Company, shared how far hypersonic flight capabilities have come from its origins after World War II at the 2025 AIAA SciTech Forum in Orlando.

Watch Full Session On Demand

The age of hypersonics began almost 76 years ago. In 1949, the U.S. Army took a captured German V2 rocket and added a WAC Corporal second stage to the top before launching it into the atmosphere from White Sands Proving Grounds. The experimental rocket achieved Mach 7 or 8, depending on the atmospheric temperature at the point of entry, noted Bowcutt.

Over the next 50 years, hypersonics was relegated to the domain of rocket-propelled systems, with both NASA’s Apollo space capsule and later the Space Shuttle achieving hypersonic speeds, with the capsule reaching Mach 37, or almost 25,000 miles per hour, on its return from the moon.

Bowcutt interspersed personal anecdotes of his own journey in the field while highlighting the development challenges of hypersonic systems. He emerged on the scene in 1984 as a doctoral student at the University of Maryland. Under the tutelage of John Anderson Jr., a leading authority on hypersonics and the former professor emeritus in the university’s Department of Aerospace Engineering, Bowcutt began his first foray into advancing the field of hypersonics. His task: to take rudimentary forms of parametric geometry generation, computational fluid dynamics, and mathematical optimization to find complex curved aircraft shapes that rode on their own shock waves and performed better than the state of the art.

“It worked. I found shapes that performed quite a bit better,” he shared.

In February 1986, following the Challenger disaster, President Reagan announced the X-30 National Aero-Space Plane program. Bowcutt spent seven years on the effort, helping design a horizontal takeoff and landing aircraft that could fly all the way into orbit.

“It was exciting. The thought of doing this as a 25-year-old at the time was just thrilling,” he recalled. “We discovered a lot of things. One of them was a single stage orbit is not possible. It wasn’t then and it still isn’t today. We learned how to design air-breathing hypersonic vehicles. What we learned about scramjet (supersonic combustion ramjet) engines in this program eventually flew on X-43A by NASA,” he recalled.

Today, that same enthusiasm is evident in Bowcutt, who has been named an AIAA Fellow, a Fellow of the Royal Aeronautical Society, and a member of the National Academy of Engineering.

“I know from my 40 years of experience that hypersonic vehicle design is really fun and interesting because it’s really hard and very challenging,” he explained.

“One of the things we want to do is get from point A to point B in the world faster than we currently can at about Mach 0.8,” he added.

Bowcutt detailed the multitude of challenges of hypersonic aircraft design, including the balancing act of navigating extreme aerodynamic heating and temperature spikes, which results in the introduction of different materials, notably high-temperature metals and ceramics. But those materials are not necessarily easy to build or affordable to buy, he noted.

The hypersonics pioneer also described both the advantages and challenges of different hypersonic systems, explaining the effects of temperature, propellant type, and size of an engine that could affect drag and other performance issues on the aircraft. Often solving one challenge created another.

“It’s challenging to integrate a relatively larger engine on an airframe,” said Bowcutt to illustrate one common difficulty with these systems. “These vehicles must be highly integrated to make the whole system work together – every component, every discipline, the aerodynamics, propulsion, thermal protection, the structures – are all interrelated and interact with each other. You’re operating on relatively small margins.”

A positive development, he noted, was the emergence of multidisciplinary design optimization, developed over the last 25 to 30 years, which he credits with helping hypersonic system designers optimize their designs through modeling tools to help solve integration challenges faster.

The idea of air-breathing hypersonic flight – where the plane gleans oxygen for combustion from the air, just as conventional jets do – began in 1958 when a NACA researcher came up with this idea, “Could we burn fuel in a supersonic air stream?”

Bowcutt said it took five decades to prove the technology. Not carrying oxygen on board for fueling the engine significantly reduced the vehicle’s size and weight. In 2004, NASA flew the X-43A with Boeing support, and proved the aircraft could generate positive net thrust with a scramjet propulsion system. It set several airspeed records for jet aircraft. At the time, it was the fastest jet-powered aircraft on record at approximately Mach 9.6.

In the 2010–2013 timeframe, the Boeing X-51 Waverider, an uncrewed research scramjet experimental aircraft for hypersonic flight, was successfully flown by the Air Force with participation of DARPA, proving that air-breathing hypersonics could be practical.

“For good or bad, we now have air-breathing cruise missiles that fly at hypersonic speed,” said Bowcutt, adding that the industry now seeks to achieve hypersonic reusable flight in the form of point-to-point travel and access to space using aircraft flight approaches.

During the Q&A, Bowcutt was asked if he thought passenger hypersonic aircraft was feasible.

He indicated yes, noting that Boeing in 2018 began work on designs for an aircraft that could fly people globally at hypersonic speeds.

“I had the opportunity to explore the design, looking at the future possibility. We innovated a number of things that suggested to us that it was at least technically feasible. It’s another thing to look at the market and the economics,” Bowcutt said.

Environmental concerns, he added, could be the biggest hurdle, one example being concerns about airport noise since supersonic aircraft engines use small fans, which result in higher jet noise.

Also, engine emissions are another issue. “When you fly at 40,000 feet, using sustainable fuels allow carbon dioxide to be recycled in the bio-environment. If you fly at 100,000 feet, CO2 doesn’t cycle very quickly. Not only that, water is a greenhouse gas as well as CO2 and water and nitric oxide both destroy atmospheric ozone. So, there’s some interesting challenges we still have to conquer.”

A final question to Bowcutt was what has he learned from the successes and failures he has experienced in his career.

“I tend to not be risk averse. I tend to like to push the boundary,” he responded. “When you’re pushing the edge of the envelope, you just have to know that not everything is going to go perfect. But the thing I find thrilling is what you learn from it. That’s what makes life exciting – to continue to learn, to grow, to understand the world around us, and how to manage and tackle it.”

Following the talk, Dilip Srinivas Sundaram, associate professor at the Indian Institute of Technology Gandhinagar, called Bowcutt’s presentation “very interesting. …I don’t think prior to this lecture I had a good understanding of the complexity of hypersonics flight. This talk gave me a sense of how difficult it is. It may take another 40 years to realize hypersonic flight.”

“I think Dr. Bowcutt gave a very comprehensive story of hypersonics from where it began and even new details that a common person might not know like the U.S. taking an old missile, which started the journey of the U.S. into hypersonics,” added Alex Cintron, a member of the AIAA High Speed Air Breathing Propulsion Technical Committee who is pursuing a master’s in aerospace engineering from the University of Florida in Gainesville.

“One of my goals is to go into hypersonics,” he added, after getting a photo with Bowcutt on stage.

On Demand Recording Available

Watch Full Session On Demand

Tackling the Big Questions

‘We must continue to do the really hard things,’ said JPL’s Director in the 2025 AIAA SciTech Forum’s opening plenary session

By Anne Wainscott-Sargent, AIAA Communications Team

ORLANDO, Fla.– The 10th and only female director of NASA Jet Propulsion Laboratory (JPL) opened the 2025 AIAA SciTech Forum Monday, highlighting the hard questions that JPL answers in its unique role as a federally funded R&D center operated by CalTech for NASA.

Watch Full Session On Demand

Laurie Leshin, who has been at the helm of JPL since 2022, shared how JPL’s work focuses on answering three fundamental questions: “What is our destiny on Earth?”, “Are we alone?”, and “How do we lead the future?”

She implored the audience to continue striving for knowledge. “If I have one message for you in this time of change in our country, it is we must continue to do the really hard things,” she said. “Our job as a nation in order to lead is not to do what’s easy…or what you can predict exactly how it’s going to go…Our job is to do the things that are ridiculously hard.”

Understanding Earth

Leshin pointed out that while JPL is most known for its work in space exploration, it also brings decades of history contributing to understanding Earth using cutting-edge space-based radars capable of measuring pollution, ocean rise, and urban heat, among other items critical to understanding climate change and predicting natural disasters. One important focus is identifying super emitters of methane, an odorless gas invisible to the naked eye that is responsible for 30–40% of global warming (due to its structure, methane traps more heat in the atmosphere per molecule than carbon dioxide, making it 80 times more harmful than CO2 for 20 years after its release). Runaway methane leaks in pipelines cost oil and gas companies $1 billion a year, she noted. Methane is now visible from orbit thanks to the EMIT tool attached to the International Space Station.

JPL also is finding and mapping heat islands in big cities such as Los Angeles and Houston, where concrete jungles are adding to the heat issue. Insights from the Ecosystem Spaceborne Thermal Radiometer Experiment on Space Station, or ECOSTRESS mission, is helping cities find hot spots. It has led one neighborhood in Los Angeles to use a reflective coating on streets to lower one street’s temperatures by up to 4 degrees Fahrenheit, leading to a noticeably cooler environment for residents.

Leshin said JPL researchers are working with global partners to map Earth’s water to better understand how rivers and lakes respond to flooding. In a first-ever collaboration with the Indian Space Research Organisation (ISRO), JPL will launch the NISAR Earth-observation radar this spring that will help view changes to the Earth’s surface so people can prepare for volcanoes, earthquakes, and landslides. According to Leshin, it will provide “unprecedented eyes on Earth.”

Finding Proof of Life Beyond Earth

In exploring the question of “Are we alone?” Leshin observed, “In some ways I like to say we are in a space race with ourselves in trying to answer this question.”

There’s a race to find evidence of life beyond Earth, and the big questions is where will the evidence come from — Mars, the moons of Jupiter or Saturn, or an exoplanet?

JPL is tackling this quest across all those avenues and has made significant inroads over the last few decades studying the surface of Mars. Missions have gone from larger ground-based rovers to a new way of exploring the Red Planet from the air.

“Today we are there with Perseverance,” said Leshin, noting that the rover recently collected “incredible samples” from a rock that points to ancient life on Mars. The rover’s instruments detected organic compounds within the rock, which are essential to all known life. These rocks and other samples are housed in tubes inside Perseverance, but how and when they will find their way back to Earth for study is a big question. “Landing on Mars is really stupid hard,” she added.

Rethinking Mars’ Sample Return

JPL has spent significant time rethinking how it does Mars sample return. NASA is discussing the path forward with media on Tuesday, 7 January. A 2023 assessment indicated that returning Mars samples would take until 2040 at a price tag of $11 billion. JPL’s concept would cut the cost in half and the timeline to a decade. Leshin said the approach will include heavy industry collaboration to get these rocks back. NASA’s proposal will use the stacking technology that has successfully landed the last two rovers on Mars to get a big lander with a rocket on board down to the surface of Mars, load it with the sample tubes and returning it to Earth safely. She also indicated that she’s very open to leveraging SpaceX’s Starship vehicle to get the lander to the Red Planet, which wouldn’t occur for another decade at the earliest, she stated, adding that partners such as the European Space Agency will play a key role in getting the samples home.

Another exciting avenue for investigating evidence of life beyond Earth is through ocean worlds. Two months ago, JPL launched the Europa Clipper probe to Europa, a moon of Jupiter. “It’s doing great. It’s flying beautifully,” said Leshin, noting that it will fly by Mars on 1 March, and will come back to Earth before it heads to Jupiter, where it is expected to arrive in 2030.

“We think there are two Earth oceans worth of liquid water on Europa,” she added, explaining that the ingredients for life will likely be present beneath those oceans.

“One of the challenges with deep space exploration is you have to be patient,” said Leshin, who described the Europa effort as “a generational quest.” She noted the wait is worth it because “the science will be incredible.”

JPL also sees promise in exoplanets – deploying transit spectroscopy as one of the lab’s tools to discover distant planets that are so far away that they can only be detected through the brightness of an individual star. To date, NASA has found over 5,500 exoplanets.

The Nancy Grace Roman Space Telescope, scheduled to launch in October 2026, will provide an even wider of view of these planets and other galaxies.

JPL also is investing in autonomous capabilities and the next generation of robotics. One such innovation is EELS (Exobiology Extant Life Surveyor), a 14-foot snake-like robot. JPL is already testing a prototype, which is winding down frozen crevasses on Earth. “It’s got to be smart enough to make its own decisions,” she noted, adding that the JPL team had to innovate around the form factor as well as the avionics and how it works and “thinks.”

Leading the Future

In closing, Leshin said the work of JPL is focused on driving humanity forward through the forefront of technology. “We’re incredibly proud of the work we do. And we can answer the biggest, hardest questions if we dare mighty things together.”

Reaction to Leshin’s lecture was well received by attendees.

“It was a nice flyover of the work they do at JPL,” said Egbert Hood, an aerospace engineer at Lockheed Martin Aeronautics in Fort Worth, Texas. “It was interesting to hear of all the missions they have ongoing – and some for them had nothing to do with landing on a moon or planet, it was just exploration of space. It was good to get a new awareness of JPL.”

Amanda Simpson, CEO, Third Segment, expressed excitement for Leshin’s message. “We have to do the hard things! It brought to mind President Kennedy’s moon speech. Space is hard. If we only concentrate on doing the easy things then we’re not actually making any progress. The way we treat going off our planet tells us so much about ourselves. And to do that, we must do the things that are hard. To do that together and to challenge ourselves – those are the keys that are going to make the difference for the future. Inspiring the future is so critical for keeping this industry, this ecosystem in aerospace, moving forward to entice and inspire the future generations.”

CJ Negrete, an undergraduate student at Cal Poly Pomona in Los Angeles, previously interned at JPL, where she worked to increase the technology readiness level of oscillating heat pipe (OHP) technology, commonly used in high-heat density electronics and exoplanet detection. She credited Leshin’s presence as a plenary speaker as one reason she decided to attend the forum, saying that having a woman at the helm of JPL “is brand new and unheard of.”

“Dr. Leshin is leading the pack of what women are more than capable of doing in the industry and we have to come and support her,” she said.

On Demand Recording Available

Watch Full Session On Demand

Early-bird Registration for AIAA SciTech Forum Ends 16 December

AIAA News

The 2025 forum will feature approximately 3,000 technical presentations spanning 60+ topics, including aerodynamic measurement technology, applied aerodynamics, fluid dynamics, guidance, navigation, and control, hypersonics, intelligent systems, propellants and combustions, spaceflight mechanics, and more. Professionals and students can save up to 25%.

Learn More

AIAA to Honor Aerospace Award Winners at the 2025 AIAA SciTech Forum

FOR IMMEDIATE RELEASE

November 22, 2024 – Reston, Va. – The American Institute of Aeronautics and Astronautics (AIAA) will bestow awards to over 20 aerospace innovators who made an impact on the industry over the past year during the 2025 AIAA SciTech Forum, 6–10 January 2025, Orlando, Fla. The awards will be presented during the forum at a special Awards Recognition Ceremony, 6 January, 5:30 p.m. Forum registration is available now. Journalists can request a Press Pass here.

“Congratulations to this year’s award winners! These exceptional individuals are highly regarded and have been chosen by their peers. They have not only advanced aeronautics and astronautics, but are also inspiring the next generation of professionals,” said AIAA CEO Clay Mowry. “We are immensely grateful for their contributions. They are truly shaping the future of aerospace.”

For more information about the AIAA Honors and Awards program, contact Patricia A. Carr at [email protected].

GRADUATE AWARDS

2024 Abe M. Zarem Graduate Award for Distinguished Achievement in Astronautics
This award was established by AIAA Honorary Fellow Abe Zarem, founder and managing director of Frontier Associates, to annually recognize graduate students in aeronautics and astronautics who have demonstrated outstanding scholarship in their field.

Mohammed Abir Mahdi
Oklahoma State University

Shafi Al Salman Romeo
Oklahoma State University

For their paper “Convolutional Neural Network and Homogenization based Hybrid Approach for Lattice Structures”

Advisor: Zhao Wei, Oklahoma State University

LITERARY AWARDS

2025 AIAA Gardner-Lasser Aerospace History Literature Award
The award is presented for the best original contribution to the field of aeronautical or astronautical non-fiction literature published in the last five years dealing with the science, technology, and/or impact of aeronautics or astronautics on society.

Michael W. Hankins
Smithsonian’s National Air and Space Museum
Flying Camelot: The F-15, the F-16, and the Weaponization of Fighter Pilot Nostalgia

2025 AIAA Pendray Aerospace Literature Award
The award is presented for an outstanding contribution or contributions to aeronautical and astronautical literature in the relatively recent past.

Joseph M. Powers
University of Notre Dame
Mechanics of Fluids

SERVICE AWARD

2025 AIAA Mary W. Jackson Diversity and Inclusion Award
This award recognizes an individual or group within AIAA who has devoted time and effort and made significant contributions to the advancement of diversity and inclusion within the Institute.

Karen A. Thole
University of Michigan
For her sustained significant contributions to raise awareness on the value of diversity and inclusion in the aerospace workforce at large, an AIAA core value.

TECHNICAL EXCELLENCE AWARDS

2024 AIAA–ASEE J. Leland Atwood Award
This award is bestowed upon an outstanding aerospace engineering educator in recognition of the educator’s contributions to the profession. This award is co-sponsored by the ASEE Aerospace Division and AIAA.

Stephen D. Heister
Purdue University
For his transformative impact on the aerospace industry in revitalizing Maurice J. Zucrow Laboratory, and mentoring leaders currently developing advanced rocket and airbreathing propulsion systems.

2025 AIAA–ASC James H. Starnes Jr. Award
This award is presented to recognize continued significant contribution to and demonstrated promotion of the field of structural mechanics over an extended period of time emphasizing practical solutions, to acknowledge high professionalism, and to acknowledge the strong mentoring of and influence on colleagues.

Paul M. Weaver
University of Limerick, Ireland
University of Bristol, United Kingdom
For his outstanding contribution in the field of composite structures and his supportive and inspirational mentoring of young academics and professionals.

2025 AIAA Hypersonic Systems and Technologies Award
This award is presented to recognize outstanding sustained contributions and achievements in enabling technologies and/or the integration of technologies for system applications in the advancement of hypersonic flight.

Gary Polansky
Sandia National Laboratories (retired)
In recognition for decades of technical leadership in pioneering U.S. hypersonic boost-glide vehicle development and testing in service of the national defense.

2025 AIAA Information Systems Award
This award is presented to recognize outstanding technical and/or management contributions in space and aeronautics for computer, sensing, and fusion aspects of information technology and science.

Radhakrishna Sampigethaya
Embry-Riddle Aeronautical University
For his pioneering work and research in aviation cybersecurity in the areas of developing aircraft and air traffic control systems countermeasures, educating the current and next-generation workforce, and enhancing aerospace safety and security.

2025 AIAA Ashley Award for Aeroelasticity
This award recognizes outstanding contributions to the understanding and application of aeroelastic phenomena. It commemorates the accomplishments of Professor Holt Ashley, who dedicated his professional life to the advancement of aerospace sciences and engineering and had a profound impact on the fields of aeroelasticity, unsteady aerodynamics, aeroservoelasticity and multidisciplinary optimization.

Mordechay Karpel
Technion – Israel Institute of Technology, Israel
For outstanding contributions to structural dynamics, aeroelasticity, and aeroservoelasticity, including engineering leadership, research innovations, influential publications, development of industrial software, and mentoring of aerospace professionals.

2025 AIAA de Florez Award for Flight Simulation
This award is presented for an outstanding individual achievement in the application of flight simulation to aerospace training, research, and development.

Heinrich H. Bülthoff
Max Planck Institute for Biological Cybernetics, Germany
For groundbreaking research into how the brain processes multisensory perceptual information and the application of this knowledge for developing revolutionary new motion simulation technologies.

2025 AIAA Air Breathing Propulsion Award
This award is presented to an individual for sustained, meritorious accomplishment in the arts, sciences, and technology of air breathing propulsion systems.

Zoltán S. Spakovszky
Massachusetts Institute of Technology
For outstanding and sustained contributions to air breathing propulsion, through rigorous discoveries and advancements in compressor aerodynamic and aerostructural stability and in aeroengine acoustics.

2025 AIAA Aerospace Power Systems Award
This award, established in 1981, is presented for a significant contribution in the broad field of aerospace power systems, specifically as related to the application of engineering sciences and systems engineering to the generation, storage, management, and distribution of electrical energy to aerospace power systems.

Margot Wasz
The Aerospace Corporation (retired)
For exceptional technical contributions to advanced spacecraft battery power systems, outstanding service to the mission success of high-value United States Space Force launch vehicle systems, and transformational leadership of AIAA space power activities.

2025 AIAA Energy Systems Award
This award honors a significant contribution in the broad field of energy systems, specifically as related to the application of engineering sciences and systems engineering to the production, storage, distribution, and conservation of energy.

Ying Zheng
Western University
For remarkable contributions in advancing applied catalysis for clean and renewable energy innovations through exceptional dedication to research, education and application.

2025 AIAA Mechanics and Control of Flight Award
This award is presented for an outstanding recent technical or scientific contribution by an individual in the mechanics, guidance, or control of flight in space or the atmosphere.

Ilya Kolmanovsky
University of Michigan
For significant contributions to advances in theory and methods enabling development of reference governors and model predictive control algorithms enforcing safety constraints in aerospace systems.

2025 AIAA Propellants and Combustion Award
This award is presented for outstanding technical contributions to aeronautical or astronautical combustion engineering.

Robert P. Lucht
Purdue University
For numerous contributions to combustion, propulsion, and power generation through innovative development of advanced laser diagnostics and applying them to practical energy systems.

2025 AIAA Wyld Propulsion Award
This award is presented for outstanding achievement in the development or application of rocket propulsion systems.

Alon Gany
Technion – Israel Institute of Technology, Israel
For pioneering contributions in propulsion research on metalized propellants, energetic materials, hybrid rockets, ramjets, and scramjets, with sustained excellence in educating generations of propulsion experts.

Media Contact: Rebecca Gray, [email protected], 804-397-5270 cell

About AIAA
The American Institute of Aeronautics and Astronautics (AIAA) is the world’s largest aerospace technical society. With nearly 30,000 individual members from 91 countries, and 100 corporate members, AIAA brings together industry, academia, and government to advance engineering and science in aviation, space, and defense. For more information, visit aiaa.org, and follow AIAA on Facebook, Instagram, LinkedIn, and X/Twitter.

2025 AIAA Durand Lectureship for Public Service Awarded to The Boeing Company’s Kevin G. Bowcutt

FOR IMMEDIATE RELEASE

Lecture Set for 6 January During 2025 AIAA SciTech Forum

November 18, 2024 – Reston, Va. – The American Institute of Aeronautics and Astronautics (AIAA) is pleased to announce the 2025 AIAA Durand Lectureship for Public Service is awarded to Kevin G. Bowcutt, Principal Senior Technical Fellow and Chief Scientist of Hypersonics for The Boeing Company, Huntington Beach, Calif.

Bowcutt will deliver his lecture, “The Evolution of Hypersonic Flight Over Seven Decades and the Technical Breakthroughs that Got Us Here,” on Monday, 6 January, 3:30 p.m. ET, during the 2025 AIAA SciTech Forum, Orlando, Florida. 2025 AIAA SciTech Forum registration is available now. Journalists can request a Press Pass here.

Bowcutt is a Principal Senior Technical Fellow & Chief Scientist of Hypersonics for Boeing with 42 years of experience. He is an AIAA Fellow, a Fellow of the Royal Aeronautical Society, and a member of the National Academy of Engineering. In 2021 he was selected by Texas A&M to be a Fellow of the Hagler Institute of Advanced Study. He holds B.S., M.S., and Ph.D. degrees in aerospace engineering from the University of Maryland. Bowcutt is an internationally recognized expert in hypersonic aerodynamics, propulsion integration, and vehicle design and optimization, and leads Boeing’s hypersonic vehicle advanced design and technology development efforts.

Bowcutt’s lecture will chronicle the major milestones that have enabled air-breathing hypersonic flight, bringing future promise to current capability, and leading to worldwide pursuit of hypersonic capabilities and leadership. Hypersonic flight has the potential to dramatically impact national defense, and significantly improve the speed of global travel and the frequency and cost of space access. For more than 50 years following the first hypersonic flight in 1949, expendable rocket propulsion was the only available means of accelerating vehicles to hypersonic speed, limiting applications to costly expendable spaceflight and military missiles. Although it took more than 40 years of dedicated R&D, the idea conceived in 1957 of a more efficient air-breathing engine employing supersonic combustion, the scramjet, was finally proven viable in 2004 by flying on NASA’s X-43A. Almost 10 years later, in 2013, hypersonic air-breathing propulsion was proven practical by flying a dual-mode ramjet on the USAF/DARPA X-51 Scramjet Engine Demonstrator. These achievements were enabled by continuous advancements in high-temperature materials; test facilities, test techniques, and test campaigns; scramjet technologies, such as air intakes, isolators, injectors, mixers, flame holders, combustion chemistry, and nozzles; fluid dynamic and thermostructural simulation; and multidisciplinary design analysis and optimization.

The Durand Lectureship for Public Service, named in honor of William F. Durand, Ph.D., is presented for notable achievements by a scientific or technical leader whose contributions have led directly to the understanding and application of the science and technology of aeronautics and astronautics for the betterment of humanity. Durand was a United States naval officer and a pioneer in mechanical engineering. During his remarkable 99-year life, Durand contributed significantly to the development of aircraft propellers. He was the first civilian chair of the National Advisory Committee for Aeronautics (NACA), the forerunner of NASA.

The Institute’s Public Policy Committee takes pride in selecting accomplished leaders in aeronautics and astronautics for this honor who can share their knowledge through the Durand Lecture for Public Service. For more information about the AIAA Honors and Awards program, contact Patricia A. Carr at [email protected].

Media Contact: Rebecca B. Gray, APR, [email protected], 804.397.5270 (cell)

AIAA to Recognize Excellence in Aerospace Award Winners at the 2024 AIAA SciTech Forum

FOR IMMEDIATE RELEASE

December 5, 2023 – Reston, Va. – The American Institute of Aeronautics and Astronautics (AIAA) is pleased to announce the winners of awards to be presented during the 2024 AIAA SciTech Forum, to be held 8–12 January 2024, Orlando, Florida. Registration is open to attend in person. Journalists can request a Press Pass here.

“We are proud to recognize these accomplished individuals for their influence on the aerospace profession, their outstanding merit, and their unique contributions to the art, science, or technology of aeronautics or astronautics,” said AIAA Executive Director Dan Dumbacher. “Chosen by their peers, these exemplary professionals are truly inspirational. We are grateful for their efforts shaping the future of aerospace.”

For more information about the AIAA Honors and Awards program, contact Patricia A. Carr at [email protected].

LITERARY AWARDS

2024 Gardner-Lasser Aerospace History Literature Award
The award is presented for the best original contribution to the field of aeronautical or astronautical non-fiction literature published in the last five years dealing with the science, technology, and/or impact of aeronautics or astronautics on society.

Margaret A. Weitekamp
Smithsonian’s National Air and Space Museum
Space Craze: America’s Enduring Fascination with Real and Imagined Space Flight

2024 AIAA History Manuscript Award
This award is presented for the best historical manuscript dealing with the science, technology, and/or impact of aeronautics and astronautics on society.

Aaron M. Bateman
George Washington University
A Space Renaissance: The Strategic Defense Initiative and the Arms Race

2024 AIAA Pendray Aerospace Literature Award
The award is presented for an outstanding contribution or contributions to aeronautical and astronautical literature in the relatively recent past.

Ann P. Dowling
University of Cambridge
Combustion Noise

2024 AIAA Summerfield Book Award
This award is presented to the author of the best book recently published (within the last five years) by AIAA.

Jeffrey W. Hamstra
Lockheed Martin Corporation
The F-35 Lightning II: From Concept to Cockpit

SERVICE AWARD

2024 AIAA Mary W. Jackson Diversity and Inclusion Award
This award recognizes an individual or group within AIAA who has devoted time and effort and made significant contributions to the advancement of diversity and inclusion within the Institute.

Amanda Simpson
Airbus Americas (retired)
U.S. Department of Defense (retired)
For being a trailblazer in the aerospace community, a champion of diversity and inclusion in industry and government, and an inspiration to future generations.

TECHNICAL EXCELLENCE AWARDS

2024 AIAA Air Breathing Propulsion Award
This award is presented to an individual for sustained, meritorious accomplishment in the arts, sciences, and technology of air breathing propulsion systems.

Aspi R. Wadia
GE Aviation (retired)
For sustained excellence, global impact, and revolutionary research and development in gas turbine aerodynamics.

2024 AIAA Aerodynamic Measurement Technology Award
This award is presented for continued contributions and achievements toward the advancement of advanced aerodynamics flowfield and surface measurement techniques for research in flight and ground test applications.

Paul M. Danehy
NASA Langley Research Center
For the development and application of optical and laser-based measurement techniques supporting NASA’s aeronautics and space exploration missions.

2024 AIAA de Florez Award for Flight Simulation
This award is presented for an outstanding individual achievement in the application of flight simulation to aerospace training, research, and development.

Marinus Maria van Paassen
Delft University
For key contributions to the fields of human-in-the-loop vehicle simulation, real-time and distributed simulation software, and aerospace human factors.

2024 AIAA Energy Systems Award
This award is presented for a significant contribution in the broad field of energy systems, specifically as related to the application of engineering sciences and systems engineering to the production, storage, distribution, and conservation of energy.

Chih-Jen Sung
University of Connecticut
For outstanding contributions to flame dynamics and low-temperature chemistry for developing fuel-flexible, ultra-low emission, efficient combustion energy systems using conventional and alternative fuels.

2024 AIAA Intelligent Systems Award
This award is presented to recognize important fundamental contributions to intelligent systems technologies and applications that advance the capabilities of aerospace systems.

Randal W. Beard
Brigham Young University
For his innovative contributions to the guidance and control of autonomous aircraft and to the mentoring and training of the next generation of aerospace leaders.

2024 AIAA Mechanics and Control of Flight Award
This award is presented for an outstanding recent technical or scientific contribution by an individual in the mechanics, guidance, or control of flight in space or the atmosphere.

David Mitchell
Mitchell Aerospace Research
For industry-defining research and globally recognized leadership in flying qualities, handling qualities, and PIO evaluation in both fixed wing and rotary wing vehicles.

2024 AIAA Propellants and Combustion Award
This award is presented for outstanding technical contributions to aeronautical or astronautical combustion engineering.

Jeffrey Cohen
RTX Corporation
For outstanding contributions to sprays, combustion control, and gas turbine combustion.

2024 AIAA Structures, Structural Dynamics, & Materials Award
This award is presented to an individual who has been responsible for an outstanding sustained technical or scientific contribution in aerospace structures, structural dynamics, or materials.

Carlos E. S. Cesnik
University of Michigan
For seminal contributions to research and education in structural modeling, dynamics, and health monitoring emphasizing multiphysics effects in very flexible aircraft, rotorcraft, and hypersonic vehicles.

2024 AIAA Survivability Award
This award is presented to an individual or a team to recognize outstanding achievement or contribution in design, analysis, implementation and/or education of survivability in an aerospace system.

Gary C. Wollenweber
GE Aerospace
For exceptional contributions during a longstanding career in aircraft engine thermal design that has led to improved aircraft survivability through IR signature reduction.

2024 AIAA Wyld Propulsion Award
This award is presented for outstanding achievement in the development or application of rocket propulsion systems.

Joseph Majdalani
Auburn University
For groundbreaking theoretical modeling and research on cyclonic rocket engines, revolutionizing the understanding of these and many other liquid, solid, and hybrid rocket engines.

Media Contact: Rebecca B. Gray, [email protected], 804-397-5270 cell