Tag: next generation

The Next Generation of Spacesuits Being Designed Digitally

Former Astronaut Leads Development of Virtual Digital Twins for High-Performance, Custom-Fit Extravehicular Activity (EVA) Spacesuits

By Anne Wainscott-Sargent, AIAA Communications Team

ORLANDO, Fla. – During her astronaut career flying on five Space Shuttle missions, Professor Bonnie J. Dunbar recalls the challenges of ill-fitting EVA “modular, mix-and-match” spacesuits. Ironically, it was during training in Russia as a crewmember traveling to the Russian Space Station Mir, that she experienced the advantages of a customized, pressurized spacesuit.

Speaking on day three of the 2025 AIAA SciTech Forum in Orlando about spacesuit advances, Dunbar shared how she was so comfortable in the customized Sokol Pressure suit, that she napped for four hours while testing the suit/SOYUZ seat combination in a vacuum chamber at Star City, home to the Yuri Gagarin Cosmonaut Training Center in Moscow.

Challenges with Fit and Customization

“Poorly fitting pressure suits that reduce mobility and have a high energy cost impact both mission success and safety. But customization had not been used since the Apollo program, where each crewmember had three custom suits: one for flight, one for back-up, and one for training,” she explained.

During the Shuttle program era, NASA went to a modular design for suits with five “chest sizes” and mix-and-match set of arms and legs, said Dunbar, recalling that the result was “suits that didn’t fit everyone as well as they should.” Some astronauts experienced injuries during missions such as shoulder issues that required surgery when they returned home. These problems are currently captured as risks by both the NASA engineering and human research organizations.

She asked: “How can we use new modern digital engineering tools to revisit customization to maximize performance, and reduce injury, in a cost-effective and schedule-sensitive manner?”

Today, as director of the Aerospace Human Systems Laboratory in the Aerospace Engineering Department at Texas A&M University, Dunbar is bringing her unique experience to bear, spearheading research that could inform what future astronauts will wear on missions to Mars and teaching students about “Human Systems Integration.”

NASA Funds Digital Thread Research

NASA was so interested in her digital concept that they gave her a Phase 1 NIAC (NASA Innovative Advanced Concepts) grant for the development of an EVA suit digital thread. Using tools such as 3D human scanners and finite element (FEA) technology to model the pressurized fabric layers of the suits, she hopes to create a digital system where custom spacesuits, optimized for joint mobility and energy expenditure before manufacture, will become a reality. This step in the digital thread is called “the virtual twin.”

“Spacesuits are not a fashion statement,” said the former NASA astronaut. Instead, think of it as “a human-shaped spacecraft.”

In addition to being pressurized, the 14-layer EVA suit generally includes a communication system, life support (oxygen for breathing and CO₂ removal), thermal management, displays and controls, battery power, computers, advanced materials, radiation mitigation, micro-meteoroid protection, and sensors. When pressurized, fabrics become rigid (think of a balloon). If the joints are not properly designed or positioned with respect to the astronauts’ joints, an astronaut can lose as much as 50% of their effective strength, experience reduced mobility, and expend more energy in required EVA exploration tasks.

Dunbar’s research could also benefit current efforts by Axiom Space, which is designing the new EVA suit for the lunar Artemis mission. Axiom unveiled the AxEMU (Axiom Extravehicular Mobility Unit) prototype in spring 2023. Featuring new tech, safety features, and enhanced comfort and mobility, the AxEMU includes innovative life-support systems, pressure garments, and avionics. It’s designed to accommodate 1%-99% of the U.S. population.

Having a future tool to virtually evaluate the suit for that large range of anthropometric sizes before manufacturing could mitigate future performance challenges. SpaceX is currently designing customized suits, but could also benefit from virtual performance evaluations (virtual twin) prior to manufacture.

The Gold Standard for Spacesuit Design

Dunbar considers the dual goals of maximizing mobility and reducing energy expenditure “the gold rings” for spacesuit design.

“I wanted to take it [spacesuit design] from the Pillsbury Doughboy stage to ‘The Martian’ stage,” said Dunbar, referring to the advancements in suit design from the 1970s and 1980s to what was shown in the futuristic Mars adventure film starring Matt Damon.

Using human digital scanners such as 3dMD and VITUS in her lab that can deliver millimeter accuracy, she took the approach of aircraft designers: building a virtual twin.

“The goal is to integrate the virtual suit with the virtual person, and to model the torque and forces required to deform a pressurized joint using FEA tools,” explained Dunbar. “By iterating sleeve dimensions, joint designs, material properties, and delta pressures through sensitivity testing, we can identify critical factors for performance.”

Dunbar has advised one Ph.D. student and three M.S. students on this topic, all with published papers, both for modelling and breadboard testing. She plans to present an overview of the current research later this year.

Raising the TRL of the Virtual Twins for Suit Design

“We’re continuing our work,” she said, estimating that her lab’s efforts to build virtual twins for suit design is currently at Technology Readiness Level (TRL) 3-4. To raise the TRL will require industry partners,” Dunbar said.

The Texas A&M researcher’s vision for tomorrow’s astronauts is powerful yet simple: “I step into the scanner. A few days later, I have a suit that comfortably fits and is mobile, and because it may be designed for Mars, it will be reliable, relatively simple, and easily repairable.”

While it’s still early days, Dunbar is hopeful that her lab is on the right path to create a future platform that delivers on that vision.

To learn more about Bonnie Dunbar’s innovative work and the process envisioned to support future spacesuits, check out a 2023 NASA/NIAC book, Made-to-Order Spacesuits featuring NASA Inventor Bonnie Dunbar.

Learn the Lessons from 60 Years in Space

FOR IMMEDIATE RELEASE

AIAA Offering Unique Course to Everyone in the Aerospace Industry

March 28, 2022 – Reston, Va. – During the first 60 years of spaceflight, the aerospace industry has been amassing an incredible engineering knowledge base. Now it’s time to pass on this collective experience to the next generation of space explorers. In May and June, everyone in the space industry can benefit from the only course of its kind, “Human Spaceflight Operations: Lessons Learned from 60 Years in Space,” offered online by the American Institute of Aeronautics and Astronautics (AIAA).

Human Spaceflight Operations: Lessons Learned from 60 Years in Space
May 10–June 30 (Tuesdays/Thursdays)
1300–1530 hrs Eastern Time
34 classroom hours total (3.4 CEU/PDH)
Online/Zoom

The course will be taught by Lead Instructor Gregory E. Chamitoff, someone who has lived and worked in space for almost 200 days. The William Keeler ‘49 Professor of Practice/Zachry Chair Professor of Practice in Aerospace Engineering, and Director of the AeroSpace Technology Research & Operations (ASTRO) Laboratory at Texas A&M University will be joined by a cadre of 15 space operations experts with vast experience as flight directors, flight controllers, astronauts, and mission engineers. They have collectively published the AIAA textbook for this course. The lessons learned are derived through experiences from space missions.

The experience and expertise of the instructors is unmatched in this field. “Our goal is to pass on our insight to the next generation of space engineers, designers, operators, and crew. Anyone who is part of a current or future national or international space program, private space enterprise, human, or robotic mission will gain valuable insights. The lessons we have learned are applicable to anyone working in the space industry,” said Chamitoff, who also is an AIAA Associate Fellow.

The course topics span the full range of operational disciplines involved in the planning and execution of human spaceflight. This includes all the typical mission control center specialties as well as others such as training, ground operations, safety, and onboard crew operations. For each topic, the fundamentals and the evolution of the systems and operational methods are explained. Case studies from spaceflight missions provide the basis for lessons learned that are integrated into operational practice.

“This is not a course on space system design, of which there are many. The aim is to shine light on the subject of space operations, as distinct from engineering design. However, the most important lesson is perhaps that operational requirements must be considered very carefully in the design process. We hope that through the process of explaining how things really work in space and in mission control centers, future missions can benefit from the experience (and mistakes) of so many pioneers that have come before,” Chamitoff concluded.

Registration is open now. Students will receive all lecture notes, as well as an eBook copy of the instructors’ new textbook, Human Spaceflight Operations: Lessons Learned from 60 Years in Space (AIAA, 2021). Students will receive an AIAA Certificate of Completion at the end of the course. All sessions will be recorded and available for replay.

Course Pricing: Human Spaceflight Operations: Lessons Learned from 60 Years in Space
AIAA Member: $1,595 USD
Non-Member: $1,795 USD
AIAA Student Member: $995 USD

For more information on the course, contact Lisa Le at [email protected] or AIAA Customer Service at [email protected].

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

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 or follow AIAA on Twitter, Facebook, LinkedIn, andInstagram.

AIAA, CSF, SFA, and SGAC Collaborate to Expand ASCEND 2026 in Washington, D.C.

FOR IMMEDIATE RELEASE

Integrated Event Scheduled for 19–21 May 2026

May 29, 2025 – Reston, Va. – The American Institute of Aeronautics and Astronautics (AIAA), the Commercial Space Federation (CSF), the Space Force Association (SFA), and the Space Generation Advisory Council (SGAC)announced today they are joining forces on an integrated space event, ASCEND 2026, spanning the week of 19–21 May 2026 in Washington, D.C.

“The vision of ASCEND has always been as a platform for accelerating the use of space for exploration, R&D, national security, and commercial innovation,” said Clay Mowry, chief executive officer, AIAA. “We are thrilled to bring ASCEND to the nation’s capital with these new event partners. Our new collaboration isn’t just exciting, it’s transformative – creating enormous synergies for the space community for learning, technical exchange, and in-depth dialogue. This new ‘Space Week’ will showcase the full spectrum of space policy, commerce, security, and innovation to build our off-world future.”

Space Policy and Leadership – Commercial Space Federation (CSF)

CSF is joining ASCEND as the premier event partner to design and deliver programming during ASCEND 2026 on the most pressing commercial space issues facing the industry. This move will continue CSF’s leadership on space policy discussions that were historically held during its flagship Washington, D.C., event, the Commercial Space Policy Conference.

Dave Cavossa, president, CSF, added, “CSF is excited to join forces with AIAA and other partners to reimagine a modern space event that is aligned to the policy challenges of today and tomorrow for the commercial space ecosystem. We want those vital discussions to happen in Washington, D.C., bringing all the critical voices together in the town where so much of our global space policy is shaped.”

National Security Space – Space Force Association (SFA)

Through an enhanced focus on national security space, ASCEND 2026 will feature expanded content highlighting its criticality to this community. SFA will provide sessions and speakers in the expanded event, designed to enable U.S. Space Force Guardians to collaborate with the commercial and civil space communities to enhance strategic partnerships and counter growing threats. In addition, ASCEND 2026 will feature a classified event that will provide attendees with mission critical insights.

Next Generation of Aerospace Professionals – Space Generation Advisory Council (SGAC)

As the largest network of university students and young professionals working in the global aerospace industry, SGAC will deliver its signature fast-paced, content-rich programming to ASCEND 2026. Modeled on the TEDx “lightning talk” format used at its previous SGx event, SGAC will create an environment where young professionals, industry experts, and government executives can network, share insights, and inspire each other.

Since 2020, ASCEND has promoted the collaborative, interdisciplinary, outcomes-driven community of professionals, students, and enthusiasts around the world who are accelerating humanity’s progress toward our off-world future. Lockheed Martin is the founding sponsor of ASCEND.

The ASCEND 2026 Call for Content will open in early July 2025, inviting the global space community to submit technical abstracts and propose collaborative session topics across a broad range of disciplines.

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

CSF Contact: Kenya McEachern, [email protected]

SFA Contact: Karen Lawrie, [email protected]

SGAC Contact: Tatiana Komorna, [email protected]

About AIAA

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. Visit www.aiaa.org or follow us: X/Twitter, Facebook, LinkedIn, and Instagram.

About Commercial Space Federation

CSF is the leading U.S.-based trade association representing the commercial space industry. Our members represent multiple sectors of the space economy including launch and reentry, remote sensing, spaceports, satellite-based internet, in-space research and manufacturing, commercial space stations, space situational awareness, and more. CSF and its members are focused on expanding America’s leadership in space by offering innovative – and often less expensive – solutions to U.S. government customers including NASA, the U.S. Space Force, and the intelligence community. CSF advocates for policies that will grow a sustainable space economy, the global value of which is already estimated at $570 billion and projected to grow to $1.8 trillion by 2035.

About Space Force Association

The Space Force Association (SFA) is the only independent, 501(c)(3) non-profit organization that serves as a professional military association whose sole focus is supporting the United States Space Force, United States Space Command, U.S. national spacepower at large, and our global partners and allies’ efforts in space exploration. Its core functions are to research, inform, and advocate to achieve superior spacepower by shaping a Space Force that provides credible deterrence in competition, dominant capability in combat, and professional services for all partners. In addition, the SFA has an essential function to provide support for the men and women of the U.S. Space Force.

About Space Generation Advisory Council

The Space Generation Advisory Council (SGAC) in support of the United Nations Programme on Space Applications is a global non-governmental, non-profit (US 501(c)3) organization and network that connects and represents university students and young space professionals aged 18–35 to the United Nations, space agencies, industry, and academia. With members in over 165 countries, SGAC fosters international collaboration, capacity-building, and innovation in the space sector. The organization hosts flagship events such as the annual Space Generation Congress (SGC), SGx, SGFF and regional Space Generation Workshops (SGWs), publishes policy recommendations, and provides scholarships to empower young professionals. SGAC is also dedicated to STEM outreach and advocacy, inspiring and enabling the next generation of space leaders.