The American Institute of Aeronautics and Astronautics is the world’s largest aerospace technical society. It brings together over 30,000 members from 91 countries.
This professional group drives aerospace engineering forward by focusing on technical excellence and global leadership. You can feel the impact in all corners of the industry.
AIAA pushes the boundaries in aeronautics and astronautics, aiming to advance both the science and the profession itself. The group started in 1963, when the American Rocket Society and the Institute of Aerospace Sciences merged.
They unite three big players: industry professionals, academic researchers, and government agencies. This mix sparks new ideas in aviation, space exploration, and defense tech.
AIAA’s technical resources have fueled breakthroughs in commercial spaceflight. Engineers and scientists rely on the organization’s knowledge base for designing next-generation spacecraft and advancing space tourism.
Members get access to research that influences civilian space travel programs. The institute’s massive collection of technical papers dives into spacecraft safety, propulsion, and human spaceflight.
The American Institute of Aeronautics and Astronautics represents the U.S. on the International Astronautical Federation and the International Council of the Aeronautical Sciences. This global role connects American aerospace experts with worldwide space initiatives.
AIAA opens doors for career growth, especially for engineers working on commercial space programs. The group hosts technical conferences where professionals share their latest work in spacecraft technology and space tourism.
The society sets professional standards that keep commercial spaceflight safe. Engineers use AIAA guidelines when they design spacecraft for civilian passengers.
Technical committees inside AIAA focus on human spaceflight safety standards. These groups create protocols that commercial space companies follow for tourist flights and astronaut training.
AIAA brings together aerospace professionals from companies, universities, and government agencies who are working on space tourism. They help share knowledge between NASA’s commercial crew program and private space companies.
Since 1963, AIAA members have contributed to major aerospace milestones. Their technical expertise supports companies building suborbital and orbital tourism flights for civilians.
Engineers count on AIAA’s technical publications for standards in spacecraft design. These resources guide work on new space tourism vehicles and orbital facilities.
AIAA’s network connects American space companies with international partners. This kind of collaboration speeds up the development of space hotels, lunar tourism, and longer orbital stays for civilians.
The organization lays the technical groundwork that makes commercial space travel possible for everyday people. AIAA standards help keep space tourism operations safe for everyone involved.
The American Institute of Aeronautics and Astronautics came about in 1963, when two groundbreaking aerospace organizations joined forces. This merger combined the experimental rocket enthusiasts of the American Rocket Society with the experienced aviation professionals from the Institute of the Aeronautical Sciences.
On January 31, 1963, at midnight, the American Institute of Aeronautics and Astronautics opened its doors. The merger brought together two communities that had grown separately for decades.
The American Rocket Society added the spirit of early rocket experimentation. Their engineers and scientists spent years testing liquid-propellant rockets, laying the foundation for commercial spaceflight.
The Institute of the Aerospace Sciences brought with it deep aviation know-how and professional standards. Their members had built the aircraft industry and knew what it took to make human spaceflight safe.
Paul Johnston stepped in as the first executive director. By merging, these groups created a society ready to tackle both atmospheric flight and space exploration challenges.
This move turned out to be crucial for the space age. Commercial space companies now benefit from the technical standards and safety rules AIAA developed through this unified approach.
The American Rocket Society started out as the American Interplanetary Society in 1930 and switched to its final name in 1934. Early members launched the first public rockets in the U.S., creating experimental methods that today’s space companies still use.
ARS rocket experiments happened at places like Great Kills Park on Staten Island. On May 14, 1933, their AIS #2 rocket reached 250 feet, marking a milestone in American rocketry.
Engineers like James Wyld, Franklin Pierce, John Shesta, and Lovell Lawrence went on to form Reaction Motors, Incorporated in 1941. This company built rocket engines for early experimental aircraft, paving the way for modern rocket propulsion.
The society’s hands-on style shaped the engineering culture behind today’s commercial spaceflight. Companies like SpaceX and Blue Origin still follow the same test-and-learn approach that ARS members started.
The Institute of the Aeronautical Sciences began in 1932 when Jerome Hunsaker and Lester Gardner saw the need for a professional aerospace group. The first meeting happened at the Yale Club in New York on October 17, 1932.
IAS headquarters moved to some pretty notable spots, like Rockefeller Center in 1933 and later the Berwind Mansion on East 64th Street. The group set the professional standards and started the technical publications that aerospace engineers use today.
They launched the Journal of the Aeronautical Sciences as their main technical journal. This publication tracked aviation progress and set up peer review to keep flight safety standards high.
By 1958, IAS saw space technology taking off and changed its name to the Institute of the Aerospace Sciences. The new name showed a shift from just atmospheric flight to spacecraft work, which now supports commercial space tourism.
The American Interplanetary Society got its start in a New York City restaurant, Nino and Nella’s, thanks to science fiction fans like David Lasser, Edward Pendray, and Leatrice Gregory. They founded the society on April 4, 1930.
Twelve founding members signed on, making it America’s first rocket society. Future science fiction legend Robert Heinlein joined while serving on the USS Lexington.
The group began by spreading ideas about space travel through publications and discussions. Their AIS Bulletin became Astronautics magazine, which tracked early American rocket work.
Edward Pendray’s 1932 trip to Germany changed everything. The society moved from talking about rockets to actually building them. That leap from theory to hands-on engineering set the stage for commercial spaceflight as we know it.
AIAA brings together more than 30,000 aerospace professionals worldwide. They offer several membership types and student programs, connecting people at every stage of their careers.
The organization stands as America’s main voice in global aerospace councils. Student chapters stay busy publishing research and supporting career growth.
AIAA has six membership categories for different career stages and backgrounds. Professional members have science or engineering degrees and established aerospace careers. Young Professional membership is for folks 35 or younger who are just starting out.
University students studying aerospace get special access to industry resources and networking. The group supports students with research publication and career guidance.
Educator membership helps K-12 teachers in math, science, engineering, or technology. These teachers receive aerospace curriculum resources and professional development.
Corporate membership lets businesses grow in the aerospace industry through networking and technical resources. High school student membership encourages young STEM fans to dive into aerospace early.
The AIAA Foundation gives out scholarships and educational grants to help students through school. Student members can write for the AIAA Student Journal, which publishes research from undergraduates and grad students.
Student chapters operate at universities around the world. They bridge classroom learning with real industry experience.
Chapters at places like Iowa State University and New Mexico State University offer hands-on projects and research. Students connect with professionals through networking events and technical talks.
Members join design competitions, research symposiums, and workshops to build their skills. Chapters also organize tours at aerospace companies and research centers.
They invite guest speakers from big aerospace companies and government agencies. Students get practical experience through chapter projects that go beyond textbooks.
Chapter activities include technical paper presentations, giving students a chance to share their research with peers and faculty.
AIAA represents the United States on the International Astronautical Federation and the International Council of the Aeronautical Sciences. This gives American aerospace professionals a seat at the table in global policy and standards.
The organization builds relationships with aerospace communities all over the world. Members attend international conferences, join technical exchanges, and work on collaborative research.
AIAA’s network crosses government agencies, private companies, and universities. This reach lets members join in on international space missions, aircraft projects, and research.
They work with international aerospace societies to push technology and policy forward. Members gain from sharing knowledge and making connections across borders.
With its global presence, AIAA helps set worldwide aerospace standards that shape commercial spaceflight.
AIAA publishes eight peer-reviewed technical journals that cover pretty much the whole field of aerospace engineering and science. These journals feature original research on aircraft design, spacecraft systems, and propulsion technologies that drive commercial space flight forward.
The AIAA Journal stands as the flagship publication for fundamental aerospace research. It covers both theory and experiments in aerodynamics, structural mechanics, and flight dynamics.
Researchers publish studies on boundary layers and turbulence modeling. This work shapes spacecraft design for commercial missions and helps engineers boost vehicle safety and performance.
The journal also features articles on computational fluid dynamics and heat transfer. These topics matter for designing thermal protection on space tourism vehicles. You’ll also find work on materials science advances for aerospace.
Key Research Areas:
A single-blind peer review process keeps the technical standards high. Experts check each submission for scientific rigor and practical value.
This journal focuses on aircraft design, performance, and operations. It covers both traditional aviation and new aerospace vehicle tech.
Researchers publish on systems integration and flight testing. These studies provide data for developing hybrid air-breathing rocket engines, which might power future space planes.
Flight control system research shows up often. Advanced algorithms help keep passengers safe during space tourism flights. The journal also dives into aircraft certification and safety standards.
Primary Focus Areas:
Recent articles look at supersonic and hypersonic vehicle development. This research is key for companies working on high-speed ways to reach space.
This journal dives into space vehicle design, propulsion, and mission operations. It’s the go-to source for spacecraft engineering research and development.
You’ll find articles on rocket propulsion systems and spacecraft subsystems. Engineers working on commercial space vehicles depend on this technical knowledge.
Writers explore everything from small satellite systems to massive crew vehicles. Mission design and orbital mechanics research help teams plan commercial space flights.
The journal publishes studies on trajectory optimization and rendezvous procedures. These techniques keep space tourism operations safe and efficient.
Core Technical Areas:
Recent research highlights reusable launch vehicle technologies. Companies like SpaceX and Blue Origin use these ideas to cut the cost of reaching space.
The journal looks at life support systems too, which are crucial for crewed missions.
The American Institute of Aeronautics and Astronautics publishes cutting-edge content through its flagship magazine and a broad range of book collections. These resources reach over 25,000 aerospace professionals worldwide, offering technical insights and the latest industry developments.
Aerospace America has led the aerospace industry since 1984. The magazine brings breaking news, sharp analysis, and a mix of perspectives shaping aviation and space exploration.
Industry professionals count on this monthly publication for broad coverage of aerospace news. You’ll spot technical articles, industry trends, and profiles of top aerospace companies.
AIAA members enjoy full access to current issues and a complete digital archive. The editorial team holds high standards, with contributions from engineers, researchers, and industry leaders.
Aerospace America follows commercial spaceflight, NASA missions, and new aerospace technologies. Each issue includes technical breakdowns and interviews with key players in the space world.
The digital platform offers interactive content and multimedia features. Readers can browse past articles, technical papers, and special reports in the online archive.
AIAA runs three book series that cover aerospace engineering basics, advanced research, and professional development. These books span more than eight decades of aerospace knowledge.
The organization has published over 300 books on propulsion systems, spacecraft design, and aerodynamics. Authors include top engineers, NASA researchers, and academic experts.
Topics range from introductory aerospace concepts to advanced orbital mechanics and mission design. Every publication goes through peer review to keep technical accuracy and relevance.
Universities around the world use AIAA books as core textbooks for aerospace engineering. Practicing engineers and space industry professionals also rely on these as reference materials.
Digital formats—like eBooks and interactive modules—support modern learning. Students and professionals can get these resources through institutional subscriptions or individual purchases.
The American Institute of Aeronautics and Astronautics hosts major aerospace conferences that bring together industry professionals, researchers, and students. These events showcase new technology, encourage networking, and move the industry forward through knowledge sharing and technical presentations.
The AIAA Science and Technology Forum is the world’s largest aerospace R&D conference. The 2026 forum lands in Orlando, Florida, from January 12-16, drawing thousands of aerospace professionals.
This five-day event covers over 70 technical disciplines. Scientists and engineers share breakthrough research in propulsion, aerodynamics, and space systems.
Keynote speakers come from NASA, big aerospace companies, and top universities. Attendees can check out sessions on emerging technologies like electric propulsion and advanced materials.
The exhibition floor features new products and services from aerospace suppliers. Technical committees organize specialized tracks to tackle current industry challenges.
The forum sparks policy discussions that shape aerospace regulations. Leaders and officials talk about funding and research priorities.
Students get to compete in design contests and present their research alongside seasoned pros.
The Design/Build/Fly competition gives university students the chance to design, build, and fly radio-controlled aircraft. Teams have to meet specific mission requirements while optimizing performance and showing off their manufacturing skills.
Every year, student teams receive new mission requirements. They design aircraft systems, build prototypes, and test flights.
The competition emphasizes practical engineering and project management. Regional events happen at sites across the U.S.
Winning teams move on to the national championship, where they compete for cash prizes and recognition. Judges look at design reports, build quality, and flight performance.
Major aerospace companies like Boeing and Lockheed Martin sponsor the event and recruit students. Many participants land internships or even full-time jobs.
AIAA’s ASCEND conference centers on commercial space development and new market opportunities. The 2025 event takes place July 22-24 in Las Vegas, bringing together space commerce leaders and investors.
The AIAA Aviation Forum covers the full aviation industry. Scheduled for July 21-25, 2025, in Las Vegas, this expo features aircraft manufacturers, suppliers, and service providers.
Technical sessions address challenges like sustainable fuels and autonomous flight. Defense and security forums offer classified venues for military and government personnel.
These events push aerospace technologies for national security. Industry leaders discuss modernization and emerging threats.
Regional conferences serve local aerospace communities across the U.S. These smaller events build networks among professionals and focus on regional industry topics—like space launch operations in Florida and Texas.
The American Institute of Aeronautics and Astronautics drives research across atmospheric flight technologies and space exploration systems. Their work stretches from next-gen aircraft design to deep space mission planning.
AIAA focuses on breakthrough technologies that change how aircraft operate in Earth’s atmosphere. Their research covers everything from supersonic jets to unmanned aerial systems.
Computational Fluid Dynamics is a huge focus. Scientists run advanced computer models to test new wing shapes and engines.
This work helps companies build faster, more efficient aircraft. The organization also publishes research on hypersonic flight systems—vehicles that travel faster than Mach 5.
Military and civilian needs both push this research forward. Sustainable Aviation is another big topic, aiming for zero-emission flight.
Research teams explore electric propulsion, hydrogen fuel cells, and biofuels. Major airlines partner with AIAA to test these technologies.
Urban air mobility gets a lot of attention too. The institute studies flying cars and delivery drones for city use.
Safety standards and air traffic management still pose challenges.
AIAA astronautics programs push spacecraft design and space mission capabilities forward. Their work supports government space programs and commercial ventures.
Propulsion Technologies get big research investments. Scientists develop more powerful rocket engines and ion drives for deep space missions.
These systems could make Mars or beyond more reachable. The organization leads research in spacecraft materials and structures.
New composite materials can handle extreme temperatures and radiation. This research helps build vehicles for the Moon and Mars.
Mission Planning Software helps engineers design complex space operations. These tools calculate trajectories, fuel, and communication windows.
NASA and private companies both use these systems. Commercial spaceflight safety standards come from AIAA research too.
The institute sets guidelines for passenger spacecraft and space tourism. Their work shapes the growing commercial space industry.
The AIAA Foundation supports aerospace education with scholarships for over 30 undergraduates each year, with awards of $2,000 to $2,500. The organization also helps K-12 educators with classroom grants up to $500 and provides hands-on STEM learning experiences to inspire future aerospace professionals.
The AIAA Foundation runs a competitive undergraduate scholarship program, awarding 30 scholarships each year to college sophomores, juniors, and seniors. Each recipient gets between $2,000 and $2,500.
Students can renew their scholarships until graduation. This support helps future aerospace professionals manage college costs.
Applicants must be AIAA Student Members, connecting them with a wider aerospace community. Graduate students also get specialized awards for advanced research.
The foundation looks for students in science and engineering who show strong aerospace potential. Application deadlines usually fall on January 31st for the next academic year.
Recent fundraising campaigns even surpassed their $100,000 goal, which shows strong industry support.
The AIAA Foundation gives classroom grants of $250 and $500 to up to 40 teachers each year. Teachers use these funds to enhance aerospace activities and learning.
The Pre-college Outreach Committee offers educational resources for K-12 educators. These materials focus on science, math, and technology related to aerospace.
Outreach programs include school visits, workshops, and hands-on projects for students. The foundation encourages high schoolers to join membership programs and connect with aerospace professionals.
Regional Student Conferences bring university students together, with 644 attending seven annual events recently. These conferences offer networking and exposure to current industry trends.
The foundation also supports competitions and activities that give students real engineering experience.
AIAA runs on a structured leadership system with elected positions and celebrates aerospace excellence through its awards. The organization recognizes standout achievements in aerospace engineering with fellowships and top awards.
AIAA’s governance structure centers on elected leaders who guide the organization’s direction. Daniel E. Hastings serves as AIAA President, bringing aerospace engineering and education experience. Dana Jackson is President-Elect for 2025-2026, representing MITRE National Security.
CEO Clay Mowry oversees daily operations. The Council of Directors provides oversight for the world’s largest aerospace technical society.
This model brings together nearly 30,000 members from 91 countries. The structure includes industry, academia, and government representatives.
Around 100 companies hold corporate membership, supporting AIAA’s mission. The leadership team manages programs in aviation, space, and defense.
Directors handle specialized programs, including honors and awards. AIAA also represents the U.S. on the International Astronautical Federation and International Council of Aeronautical Sciences.
AIAA runs a huge recognition system with more than 100 awards and lectures to spotlight achievements in aerospace engineering. Every year, the organization announces Premier Award winners, highlighting standout contributions to aeronautics and astronautics.
Fellowship status stands as AIAA’s top honor for its members. When someone earns the Fellow designation, AIAA recognizes their significant impact on aerospace arts, sciences, or technology.
The organization also names select individuals as Honorary Fellows when they’ve made truly distinguished contributions.
Associate Fellow Awards go to rising leaders in aerospace. These awards celebrate talent across aviation, space, and defense.
Recipients get honored at formal events, like the annual Fellows Dinner.
The Aerospace Spotlight Awards Gala is AIAA’s big black-tie event for recognition. Member upgrade awards highlight career progress and peer acknowledgment.
Recognition luncheons at technical forums offer even more chances to celebrate achievements.
AIAA teams up with other technical societies for joint recognition events. The awards program covers areas from technical breakthroughs to educational excellence.
This wide-reaching system helps aerospace engineers at every stage of their careers.
The American Institute of Aeronautics and Astronautics builds strategic partnerships with NASA and other international aerospace organizations. Together, they focus on advancing aerospace technology standards and supporting commercial space tourism through shared research.
AIAA works directly with NASA to push aerospace technology and space exploration forward. This partnership also supports NASA’s commercial crew program, which helps drive civilian space travel.
The institute collaborates with federal agencies to shape aerospace policy. AIAA experts help develop regulations for commercial spaceflight operations.
AIAA’s Autonomy Task Force brings together government and commercial companies to create autonomous flight systems. These systems are vital for safe civilian space tourism and reliable spacecraft.
By partnering with government, AIAA helps connect military aerospace know-how with civilian space tourism needs. This teamwork speeds up technology transfer from government programs to commercial space ventures.
AIAA represents the U.S. in the International Astronautical Federation and the International Council of the Aeronautical Sciences. These roles let American aerospace companies shape global space tourism standards and safety rules.
The institute works with the Royal Aeronautical Society under a formal agreement signed in 2020. This partnership broadens outreach and builds unified international approaches to space technology.
Industry collaborations include working with the Aerospace Industries Association and NAFEMS to advance digital twin technology. Digital twins play a big role in spacecraft design validation and passenger safety for commercial spaceflight.
AIAA’s corporate membership brings together over 100 companies that help set aerospace industry standards. These partnerships make sure space tourism vehicles meet rigorous safety and performance requirements before civilian flights can happen.
AIAA shapes aerospace development by setting technical standards and driving innovation across commercial and defense sectors. Its influence reaches from spacecraft design rules to the latest aviation technologies.
AIAA sets critical benchmarks that manufacturers around the world follow for safety and performance. The institute puts out over 200 technical standards, covering everything from spacecraft materials to aircraft testing.
Major companies like Boeing, Lockheed Martin, and SpaceX use AIAA standards in their design work. These standards keep quality high and help cut development costs by offering proven methods.
AIAA’s technical committees update and review standards each year. They bring in new technologies and tackle challenges in commercial spaceflight and aviation.
These standards shape regulatory frameworks used by NASA and the FAA. Government agencies turn to these technical guidelines when setting safety requirements for new aerospace efforts.
AIAA pushes aerospace technology forward through its many research publications and technical conferences. Each year, the institute publishes thousands of technical articles covering new discoveries and engineering solutions.
Annual conferences bring engineers together to share innovations. These events help speed up the exchange of technology across defense, commercial, and academic fields.
AIAA’s technical journals are go-to sources for peer-reviewed aerospace research. Engineers and scientists rely on them to stay up to date on propulsion, materials, and flight systems.
The institute supports emerging technologies with specialized committees focused on topics like electric aircraft propulsion and space tourism systems. These groups spot promising research and coordinate industry-wide development.
AIAA faces big choices as it navigates emerging flight tech and changing regulations. The organization wants to expand its reach in global aerospace while keeping its leadership role and embracing new ideas like autonomous flight and advanced air mobility.
The aerospace world is shifting fast, and that means new ways to certify aircraft. Advanced air mobility systems challenge old assumptions, so regulators need fresh thinking.
AIAA’s Certification Task Force points to autonomy and artificial intelligence as must-have technologies. These systems need solid testing methods for flight certification, and machine learning has to fit smoothly into airworthiness standards.
Hybrid-electric propulsion acts as a stepping stone toward zero-emission aviation. These aircraft help cut fossil fuel use while the industry works toward fully electric options.
AIAA’s Domain approach takes on supersonic and hypersonic flight challenges. Technical experts cross industry lines to explore new technology sectors.
Commercial aviation will need more than 40,000 new aircraft by 2050. Boeing and Airbus together can only supply 26,000 in that time.
This gap opens the door for innovative designs and new ways of manufacturing.
AIAA boosts its role as a leader in aerospace innovation by focusing on domain leadership. The organization has named specialists in aeronautics, R&D, and space exploration to steer future projects.
International collaboration is more important than ever, since aerospace challenges ignore borders. Climate goals and sustainability requirements demand a united global response.
The institute aims to speed up aerospace innovation to tackle worldwide issues. Domain leads create strategies that link traditional aerospace with emerging tech companies.
AIAA gatherings bring together government, business, and technical experts to work through aviation setbacks. These forums help reset expectations and redefine the organization’s place in advancing flight.
The organization’s reach grows through technical publications and research efforts. CFD Vision 2030 is a good example—it shows how AIAA lays out long-term research plans that guide the industry for decades.
The American Institute of Aeronautics supports aerospace professionals worldwide with career programs, membership options, certification paths, conferences, research initiatives, and networking platforms. These services help people move forward in their careers and connect across commercial spaceflight and traditional aerospace.
AIAA offers a wide range of educational programs, including online courses, technical workshops, and specialized training. The organization even has artificial intelligence courses for aerospace pros, with a focus on responsible AI use in aerospace.
Members get access to technical publications and research databases on aerodynamics, propulsion, and spacecraft design. These resources help professionals keep up with fast-moving tech in both commercial spaceflight and traditional aerospace.
The institute gives continuing education credits for engineers and technical staff. This support helps members keep their licenses and move up in the aerospace field.
Professional development also covers leadership training for managers and executives. Courses focus on project management, team leadership, and strategic planning for aerospace organizations.
Online membership applications process right away, so you get instant access to benefits and resources. Applicants receive confirmation emails with their membership ID and details about available services.
Mail applications take about one to two weeks. New members get info kits within two days of joining, sent to their email.
Members receive Aerospace America magazine, technical publications, and industry research reports. The organization assigns members to local sections by zip code to help with regional networking.
Benefits include discounted conference registration, access to technical committees, and chances for professional recognition. Members can update their profiles and manage subscriptions through the My AIAA portal.
AIAA offers advancement through several professional grades: Senior Member, Associate Fellow, and Fellow status. These levels show increasing experience and contribution to aerospace.
To become a Senior Member, you need eight years of professional practice in aeronautics or astronautics, or eight years of AIAA membership. This step brings professional recognition and better networking.
Nomination for Associate Fellow requires being a Senior Member plus twelve years’ professional experience. Fellow status goes to those with notable contributions beyond Associate Fellow requirements.
Professional peers review all advancement applications through committees appointed by the AIAA Board of Directors. The organization processes Senior Member nominations monthly, while higher-level advances follow annual deadlines.
The institute holds technical conferences on spacecraft design, propulsion systems, and aerospace materials research. These events bring together industry pros, researchers, and commercial spaceflight companies to share new developments.
Conference programs include talks on commercial crew programs, space tourism tech, and advanced propulsion. Attendees get to network with people from NASA, SpaceX, Blue Origin, and other big names in aerospace.
Registration rates are lower for members, and membership brings big savings. Conference registration doesn’t include membership renewal, so those are separate.
Specialized workshops dive into emerging tech, like artificial intelligence in aerospace. These sessions offer hands-on training and practical advice for professionals.
AIAA publishes peer-reviewed research in technical journals and conference proceedings, moving aerospace knowledge forward. Publications cover propulsion, spacecraft systems, and aerodynamics—key areas for commercial spaceflight.
The organization runs technical committees of industry experts who develop standards and best practices. These groups influence aerospace design and safety protocols across commercial and government sectors.
Research initiatives support NASA, commercial spaceflight companies, and international projects. AIAA represents the U.S. in international aerospace organizations, helping drive global collaboration.
Policy advocacy focuses on aerospace regulations, funding, and industry standards. The institute works with government agencies to shape policies that affect commercial space tourism and traditional aerospace operations.
Local sections open doors for regional networking. You’ll find technical meetings, social events, and chances to grow professionally.
If you want to get involved, just reach out to section leaders. They’ll add you to mailing lists and help you jump into local aerospace activities.
Technical committee membership lets you connect with people who share your interests in specific aerospace fields. Any member can throw their hat in the ring for a three-year term on a technical committee.
Nominations for these committees usually happen from August through November. It’s a great way to get more deeply involved.
Standing committee roles let you help shape how AIAA runs and where it’s headed. You can nominate yourself or someone else through the organization’s online system.
The My Communities platform brings together members with similar interests or expertise. This online hub makes it easier to collaborate with other aerospace professionals working on related projects or research.
