Tag: January 9

SpaceX Launches 40 More Internet Satellites

Spaceflight Now reports that a SpaceX Falcon 9 rocket “lifted off from Cape Canaveral Monday night with 40 more internet satellites for OneWeb, nudging the network closer to full operational capability.” The Falcon 9 booster “returned to Cape Canaveral for landing eight minutes later.” SpaceX delayed “the launch of a different Falcon 9 rocket from Vandenberg Space Force Base in California Monday night due to bad weather.” That mission was “supposed to launch just 35 minutes before the OneWeb mission from Cape Canaveral, but has now been rescheduled for liftoff Tuesday night.” The SpaceX launch team “working in a control center just outside the gate of Cape Canaveral Space Force Station began loading super-chilled, densified kerosene and liquid oxygen propellants into the Falcon 9 vehicle at T-minus 35 minutes.” Helium pressurant also “flowed into the rocket in the last half-hour of the countdown.” In the final “seven minutes before liftoff, the Falcon 9’s Merlin main engines were thermally conditioned for flight through a procedure known as ‘chilldown.’” The Falcon 9’s “guidance and range safety systems were also configured for launch.”
Full Story (Spaceflight Now)

Video

SpaceX launches the OneWeb Launch 16 mission from Space Launch Complex 40 at Cape Canaveral Space Force Station in Florida, Monday, January 9 at 11:50 p.m. ET.
(SpaceX; YouTube)

SpaceX to Launch OneWeb Satellites on Monday

The Orlando (FL) Sentinel reports SpaceX “is set for its second Space Coast launch of the year mission to send up more internet satellites for competitor OneWeb” on Monday after “a Sunday attempt was tabled so SpaceX could ‘complete prelaunch processing,’ the company posted on its Twitter account,” although the “vehicle and spacecraft are healthy.” The launch “was set to be the company’s 200th…since 2010, but may end up being the 201st with the delay as a Starlink launch is also on tap for Monday night, but from California,” and Space Launch Delta 45′s weather squadron “predicts better than 90% chance for good conditions” for the second attempt.
Full Story (Orlando (FL) Sentinel)

The ‘Golden Age’ of AI and Autonomy

Panel Highlights Critical Role of AI and Autonomy on Earth and in Space

By Anne Wainscott-Sargent, AIAA Communications Team

ORLANDO, Fla. – In the future artificial intelligence (AI) and autonomous systems will transform how people and assets are tracked, whether on Earth or in space, noted speakers on an AIAA SciTech Forum plenary on AI and Autonomy last Thursday, 9 January.

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Advances in real-time monitoring and connectivity will help first responders act fast, said one panelist, recalling a 2012 Sausalito, California, road fatality caused when a man crashed his car following a heart attack. He was traveling alone at night, with no one aware of his location.

“In a world where we have a fully connected comms system, that plays out very differently,” said Eric Smith, senior principal, Remote Sensing and Data Analytics at Lockheed Martin Space.

Redefining Accident Response

Not only would AI wearable tech proactively monitor the man’s medical condition, it also would alert EMS and even coordinate traffic control systems to ensure the speediest response to his location.

The plenary session highlighted advancements in AI and their applications in simulation, safety, and decision making, as well as how autonomous systems are reshaping the future of space exploration.

“This is a golden age for robotics and autonomy,” noted Marco Pavone, lead autonomous vehicle researcher at Nvidia and an associate professor at Stanford University in the Department of Aeronautics and Astronautics.

His focus is fourfold: 1) develop visual language models for vehicle autonomy architectures, 2) find other ways of architecting autonomous tasks, 3) explore simulation technologies to enable end-to-end simulation of autonomous tasks in a realistic and controllable way, and 4) research AI safety – building safe and trustworthy AI systems, particularly in space systems and self-driving cars.

Pavone also co-founded a new center at Stanford – the Center for AEroSpace Autonomy Research (CAESAR), which was formed to advance the state of the art by infusing autonomous reasoning capabilities in aerospace systems.

“At the center we are looking at AI techniques for constructions tasks for other space systems and we’re even developing space foundation models that take into account specific inputs and outputs,” he said.

Lockheed Martin is using AI in all four domains of its business – Space, Missiles and Fire Control, Rotary Systems, and Aeronautics. The company envisions AI for autonomy in unstructured environments like the surface of the moon or Mars, with multiagent cooperative autonomy for manufacturing and assembly.

Smart Robots Likely to Precede Humans to Mars

“I foresee the first habitable, critical infrastructure on the surface of Mars being constructed by a team of robots using material and tools and high-level instructions that say, ‘Do the following things’ [in preparation] for humans to arrive,” said Smith.

On the ground, autonomy and AI advances will play an important role in land-use monitoring, to manage and coordinate disaster response and asset tracking, and will work even if objects pass under bridges or under cloud cover. Lockheed Martin Missiles and Fire Control has a department called Advanced Autonomy concerned with autonomous ground vehicles.

Better Fire Prediction and Detection

According to Smith, the group is exploring advanced technologies to help firefighters better predict, detect, and fight wildfires. The technology could predict and locate a fire hours before it even starts from a lightning strike. Using the power of AI, Lockheed’s technology could also analyze fire behavior in near real-time to enable fire growth predictions and to deliver persistent communications across multiagency air and land suppression units, so they might respond quicker to a large complex fire. Unfortunately, the technology is only in test mode; it’s not currently helping fight the fires ravaging southern California, said Smith.

Moderator Julie Shah, Department Head and H.N. Slater Professor in Aeronautics and Astronautics at Massachusetts Institute of Technology (MIT), discussed how much the world has changed in the context of AI over the last two decades.

Continually Evolving AI Systems

“When I did my Ph.D., it was on automated planning and scheduling with no machine learning,” recalled Shah. “When I started my career on faculty, I remember a colleague at NASA told me … nothing that learns online will ever fly in space. In the blink of an eye, a few years later, all I did in my lab was machine learning.”

Pavone agreed with Shah that future aerospace missions, especially for space exploration, will need AI systems that can continue to evolve and learn after they deploy.

“Adaptation is needed and so that’s something we are working on,” said Pavone, noting that his lab is collaborating with The Aerospace Corporation on AI systems that can serve anomalies – “How do you use those anomalies to train your system on the ground so that you can still do validation and then improve it?”

Following the panel, Pavone emphasized that foundation models, dark language, and vision language models all provide “several opportunities to rethink how we build autonomous systems.”

He pointed to several breakthroughs in simulation technologies, which will make simulation a powerful tool of autonomous systems.

Aerospace: Lessons from Automotive’s AI Experience

Pavone added that while the application domain he focuses on at Nvidia is primarily automotive (self-driving cars), aerospace researchers can learn from the automotive industry.

“The automotive [industry] has been building AI systems for a while now, and they have built quite a bit of competence in terms of which AI system should be fielded and also how to provide that they are safe and reliable. So, both the methodologies and the safety standards that have been developed by the automotive community could be useful for the aerospace community,” he said.

Forum Attendees Weigh In On AI

Following the plenary, Jorge Hernandez, president of Texas-based Bastion Technologies, said, “Just the opportunity to hear how different organizations are working with AI was fantastic. What Stanford, Lockheed, and MIT are doing is exceptional. We’re all interested in seeing how that will impact us in the future…and we’re all interested getting involved.”

His firm focuses on safety and mission assurance and mechanical engineering, said Hernandez. “We get involved on the risk and analysis side, so how AI plays into that will be an important piece of what we do.”

Rudy Al Ahmar, a PhD student who is completing his aerospace engineering studies at Auburn University’s Advanced Propulsion Research Laboratory this semester, agreed with the panelists – there was a lot of skepticism about AI and machine learning five years ago, but those concerns were addressed within a few years. The same thing has happened with generative AI.

“For a lot of scientists and researchers, it’s not a matter of if they’re going to use AI and machine learning, it’s a matter of when and how they’re going to implement it – whether on a large scale or small scale,” he said.

The doctoral candidate said he hopes to research AI and machine learning integration with computational fluid dynamics (CFD) as a university assistant professor.

“It’s computationally demanding to work on these aerospace applications with CFD. AI and machine learning can reduce the computational cost and make things rapid so you can optimize and study things much, much quicker.”

On Demand Recording Available

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Celebrating Diverse Voices in Aerospace at AIAA SciTech Forum

By Anne Wainscott-Sargent, AIAA Communications Team

ORLANDO, Fla. – On the final evening of the 2025 AIAA SciTech Forum, female aerospace leaders, students, and allies gathered for an engaging discussion on the unique experience of women in aerospace and how to navigate interpersonal, gender, and cultural dynamics for long-term professional and personal success.

“Throughout my career I have witnessed the power of diverse perspectives and how they drive innovation, tackle complex challenges, and lead technology through development,” said panel moderator Soumya Patnaik, a principal aerospace engineer at the Air Force Research Lab. “This evening is all about celebrating that diversity.”

Patnaik added that aerospace isn’t just about technology; “it’s about people – our ideas, our collaboration, and our shared drive to keep moving forward.”

How does one attract people of different backgrounds and experience? Sonya Smith said it starts by being inclusive. Smith is professor and executive director of the Research Institute for Tactical Autonomy at Howard University. “Make sure that you’re going beyond your comfort zone, to reach out to different populations, to people with different experiences.”

In academia, that might mean reaching out to community colleges instead of only four-year universities.

“I look to raise the voices of women and bring them to more leadership positions,” added panelist Melike Nikbay, professor of Aerospace Engineering and chair of the Astronautical Engineering Department at Istanbul Technical University.

Her outreach to young people extends to her role representing Turkey with NATO’s Science and Technology Organization Applied Vehicle Technology Panel, where she has served for over 16 years and contributes scientific work to the research task groups.

Clearly, the issue of diversity isn’t just about gender – it can be about diversity of experience, be it cultural differences or age. While sharing their own experiences, the panelists offered practical advice to current professionals and the up-and-coming generation of engineers.

“Success is defined by you, nobody else,” said panelist Anna-Maria McGowan, national senior engineer for complex system design at NASA Langley Research Center. “We are so much more than our job.”

McGowan, a native of the Caribbean, said she turned down promotions because she knew the new roles would take her away from her family. McGowan’s son, an undergraduate engineering student attending Pennsylvania State University, watched his mom on stage as he attended his first AIAA SciTech Forum.

Afterward he said, “What she said reflected a lot of how she raised me – it was very familiar. My mom really encouraged me to get into a lot of different things. I’ve lived in ice caves for days in Colorado; I’ve studied abroad in Singapore. I run a product design team right now where about half (the members) are underrepresented.”

Smith advised engineering graduates who are looking to start families to be selective about where they choose to work. “Look for organizations that support family-friendly policies. Choose carefully where you start your career.”

“Be who you are,” urged Karen Roth, deputy director of AFWERX, the innovation arm of the Department of the Air Force, who also serves as the president of the Society of Women Engineers. Roth said those times when she wasn’t her authentic self to fit in never worked out.

Embracing Diversity Makes Business Sense

“Wall Street requires organizations to have diverse boards because they know that diversity has a profitability impact,” noted Roth.

As a mother, she brings skills to the work setting that allow her to be a better communicator, which is helpful when dealing with people interpersonally who may not have strong communication skills. In those instances, “understanding context” proves extremely helpful.

McGowan acknowledged that conversations about diversity, equity, inclusion, and accessibility have become a challenging topic for everybody.

“People are afraid if they mention it, they’ll (be viewed as) ‘pulling the race or gender card,’” the NASA career professional said.

She urged people to resist staying silent and for leaders to have honest discussions with their teams.

“Let’s make the conversation about diversity comfortable and engaging. It may mean we need to educate ourselves. We as leaders and future leaders need to have those conversations.”

After the panel, first-time AIAA SciTech Forum attendee Funmi Adeeye said her decision to attend the panel was easy. “I get inspired whenever I see women doing something great.”

The Nigerian native and Stanford University engineering student said she liked the advice from one of the panelists – to accept that you will make mistakes and to extend grace to yourself and to others.

“Be kind to yourself. In school, there’s always a chance to make things better,” she said.

Also in the audience was Joseph Connolly, an aerospace engineer with NASA Glenn Research Center in Cleveland and former member of the AIAA Diversity Working Group.

“I’ve been coming to the Women at SciTech discussion every year since I’ve been attending the forum,” he said. “The panels are always phenomenal. There’s usually some inspirational and refreshing words of ways to work through tough situations, and how to make sure you’re giving yourself a nice balance between your family life and your work life.”

Sustainable Aviation Fuels and Advanced Propulsion Tech Will Help Industry Achieve Net Zero Goals by 2050

By Anne Wainscott-Sargent, AIAA Communications Team

ORLANDO, Fla. – An expert panel composed of three top aviation original equipment manufacturers (OEM), NASA, and the U.S. Department of Energy tackled how propulsion technology will drive the industry to achieve its goals for net zero carbon emissions by 2050 during the 2025 AIAA SciTech Forum.

Panelists emphasized fleet renewal, sustainable aviation fuels, and advanced propulsion technologies to help the industry achieve its carbon-mitigation goals.

“Aerospace is one of the hardest sectors to decarbonize,” noted Peter de Bock, program director for the Department of Energy’s Advanced Research Projects Agency-Energy (ARPA-E).

Organized similarly to DARPA, ARPA-E advances high-potential, high-impact energy technologies that are too early for private-sector investment. ARPA-E awardees are unique because they are developing entirely new ways to generate, store, and use energy.

“We take high-risk bets on the next generation of technology. What are things that the world would need 10 years from now?”

His agency is focusing closely on the transportation sector, which leads emissions over power generation, said de Bock, who predicts that the industry will get more scrutiny starting in 2030 and through the next decade.

“We see multiple modalities to be the path to the future. Anything you can do fully electric… can push the efficiency to 75 or 80%. That’s a big deal. It’s extremely hard but worth the try.”

ARPA-E supports innovative technologies across the spectrum, including high-temperature alloys, atmospheric sensors, and sustainable aviation fuel production.

Low-hanging fruit for several aviation engine builders centers on technology improvements that drive fuel efficiency given how much fuel costs airlines’ bottom lines.

More Efficient Propulsion

Michael Winter, chief science officer at RTX, and senior fellow of Advanced Technology at Pratt & Whitney, said 30–40% of the cost of running an airline and a modern airport is fuel.

“Propulsion efficiency really comes down to the fan or propulsor and the bypass in the nozzle,” he said.

Pratt & Whitney in 2016 introduced a geared-fan architecture that has enabled a 16% improvement in fuel efficiency, noted Winter. Its geared turbofan (GTF) engine technology uses a specially designed fan that rotates at a slower speed while still achieving high bypass ratios, leading to significant fuel savings and reduced noise emissions compared to previous engine designs.

“As we look to the future, we see opportunities for greater efficiency – number one, going to higher thermal efficiency in engines, which over the last 85 years has improved about 400%.” Winter added that higher thermal efficiency creates higher temperatures requiring new material systems and better cooling.

Saving Fuel with Propulsive Technology

On the propulsion technology front, GE Aerospace is embracing open fan technology. While not a new technology, it has matured over the last decade and a half, allowing it to be “as fast as a jet, [quiet], and 20% more efficient than today’s engines,” according to a recent GE Aerospace blog post.

GE Aerospace recently was awarded 840,000 hours on the Frontier supercomputer through the agency’s INCITE program. INCITE is a highly competitive program that supports the world’s most computationally intensive projects. Frontier was introduced in depth at another session during the forum by Bronson Messer II, director of science for the Leadership Computing Facility at Oak Ridge National Laboratory (ORNL). (Read more on Frontier here.)

In November, the company announced a new project with Boeing, NASA, and ORNL to model the integration of an open fan engine design with an airplane.

UK-based Rolls-Royce is pursuing continuous improvement in its gas turbine and power systems, including materials, cooling, and cycle efficiencies. Steve Wellborn, the company’s senior fellow, said enhanced integration at the platform level will be critical for achieving these breakthroughs in fuel efficiency.

Embracing Whole-System Integration

Wellborn added that he sees a lot of manufacturing, digital, and service technologies coming together. “You’re no longer just bolting engines onto an aircraft; you have to think of the whole system together.”

“At the forefront of this has to be safety,” he said.

Kathleen Mondino, manager of RISE Technology Maturation at GE Aerospace, also considers integration a critical trend. She predicts the future will be one that leverages open fan technology – “that means viewing the engine and aircraft together as one system, which hasn’t been done before.”

Filling Capability Gaps

NASA Glenn Research Center provides avionics providers with the tools and capabilities for optimization and simulation they need when looking at new architectures.

“We also look at where there might be a gap where there are lower technology readiness levels and do some work in that,” said Joseph Connolly, deputy for Electrified Aircraft Propulsion Integration at NASA Glenn Research Center.

NASA is supporting several papers at the forum looking at concepts for hybrid-electric configuration with distribution propulsion to see what benefits the technologies might offer industry partners in the future.

Connolly also shared details on NASA’s work on the Electrified Powertrain Flight Demonstration project, involving GE Aerospace and magniX, to develop a megawatt-class powertrain for commercial aircraft by the 2030s. The project includes a parallel hybrid architecture for a Saab 340 and a regional turboprop demonstrator for a Dash 7.

NASA’s efforts focus on addressing key barriers in electrification, including high voltage at altitude and battery system performance.

Investing in Sustainable Fuels

Sustainable fuels are a big area of investment across the OEM community. “We see huge opportunities in hydrogen,” said Winter, citing the new HySIITE (Hydrogen, Steam Injected Intercooled Turbine Engine) concept, shown to be 35% more efficient while reducing oxides of nitrogen by 99.3% and recapturing one gallon of water every three seconds.

Capitalizing on Coming Fleet Renewals
Moving aircraft to more efficient propulsion will likely occur at the end of this decade, said Mondino.

“GE Aerospace is laser focused on the narrow-body market,” she said, adding that those aircraft fleets are up for renewal toward the end of this decade or at the beginning of the next.

She emphasized that making this transition will require “a big step change” in how the OEM market approaches product innovation and problem-solving.

“You’ve got to break out of the box that you’re currently in,” she said.