Paris Air Show 2025

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AEROSECURE RESEARCH CONSORTIUM

“Embry-Riddle Aeronautical University provides a unique capability for providing the aerospace leadership needed for a university and industry partnership research consortium that can focus on the specific aerospace cybersecurity needs of our community.” Dan Diessner Executive Director, Center for Aerospace Resilient Systems FIRST The world’s first aerospace cybersecurity research consortium 45 % By 2025, 45% of global organizations will be impacted by a supply chain attack (Source: gartner.com) $ 10 . 5 TRIL Projected global cost of cybercrime by 2025 (Source: esentire.com)

Join the Aerospace Strategic Exploration of Cybersecurity via the University Research & Education (AeroSECURE) Research Consortium, the world’s first consortium of its kind, designed to tackle the unique cybersecurity challenges faced by the aerospace community. With a focus on addressing the aerospace community’s distinctive blend of Operational Technology (OT) and Information Technology (IT) cybersecurity challenges, AeroSECURE brings together leading cyber experts and esteemed partners in aviation and aerospace research. Embry-Riddle recognizes that the aviation and aerospace industries demand a comprehensive approach to cybersecurity. With our resident expertise, extensive research networks and strong organizational structure, we provide an unprecedented platform for sharing data, findings, solutions and best practices. Through collaboration with industry, government and university partners, we aim to develop innovative strategies that meet the specific needs of the aerospace cybersecurity community. AeroSECURE offers immense value by addressing common and shared research and training needs within the aviation and aerospace cyber community. By becoming a member of AeroSECURE, your organization gains access to cutting-edge insights, collaborative opportunities and a network of industry leaders, enabling you to stay ahead of emerging threats and enhance your cybersecurity posture. Research consortium partner membership includes: The opportunity to propose central research queries for study or training to be developed. Invitation to attend bi-annual AeroSECURE Industry Advisory Board meetings to define and select research and training activities, as well as receive reports on research study or training development progress. Direct access to anonymized or de-identified raw data, analyses and findings. Access to research summary briefs that offer evidence-based recommendations and strategies. Access to closed research and training forums for consortia information sharing. Opportunities to attend specialized training activities. Industry partners access to collaborate with and support dedicated research initiatives (e.g. undergraduate capstone, master’s thesis or Ph.D. dissertation research). A vehicle to define and fund stakeholder-specific research topics. Don’t miss the opportunity to be at the forefront of aerospace cybersecurity. Join AeroSECURE today and become part of a pioneering community dedicated to safeguarding the future of the aviation and aerospace industries. Together, we will navigate the complex cybersecurity landscape and shape the future of safe, secure and resilient aerospace systems.

Contact Us Office of Corporate Engagement Rodney Cruise, Chief Operating Officer and Senior Vice President +1 (386) 226.7303 | corporate.engagement@erau.edu

04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AIR AND SPACE RESEARCH AND DEVELOPMENT

Embry-Riddle Aeronautical University, the world’s leading aviation educator, is leveraging applied research to help shape the future of the aviation/aerospace industry. Our researchers collaborate with industry partners to advance uncrewed aerial systems, hybrid-electric propulsion for urban air mobility and design resilient aerospace systems.

At Embry-Riddle’s Research Park, innovators have secured FAA approval to fly drones beyond the visual line of sight. Such advancements require a laser focus on safety as well as engineering know-how to improve the capabilities of uncrewed aerial systems (UAS). In support of space enterprise, researchers are developing modular, reusable satellites to reduce space junk, studying materials to keep astronauts safer and inventing solar-propelled sails for satellites. Researchers use our subsonic wind tunnel to analyze and solve problems such as how to land helicopters safely on ships. The Eagle Flight Research Center’s mission is to advance crewed and uncrewed flight through the fusion of theoretical and hardware-based research related to alternative propulsion, flight control, autonomy and the development of novel aircraft. Current areas of interest include green aviation, electric and hybrid-electric propulsion, noise reduction, advanced and urban air mobility and the controls to guide those aircraft. The Advanced Dynamics and Control Laboratory (ADCL) supports research activities focused on the development and implementation of guidance, navigation and control of aerospace systems. This includes performing complex tasks in space using robotic tools. The Astrodynamics and Spacecraft Lab supports cutting-edge research activities related to spacecraft formation flight, on-orbit servicing and space debris removal. The lab is the home of two research groups: ADAMUS (ADvanced Autonomous MUltiple Spacecraft) and ASPROS (Autonomous SPacecraft and RObotic Systems). The Space Technologies Laboratory (STL) conducts research on spaceflight hardware and algorithms, focusing on proximity operations, relative motion, optical navigation, and design capabilities for nano-satellites, directly contributing to small satellite technology development and operation. Research areas encompass various aspects of spaceflight. The Wireless Devices and Electromagnetics (WIDE) Laboratory researchers work to advance knowledge and applications in connected wireless systems, antennas, sensors and cyber-physical systems. This includes improving the performance of advanced manufacturing techniques for RF and optical communications applications.

$ 130 M+ External funding secured by entrepreneurs in Embry-Riddle’s Research Park 60 MIN Drive from the Space Coast to our research facilities, which are adjacent to Daytona Beach International Airport

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AIR AND SPACE RESEARCH AND DEVELOPMENT

Embry-Riddle Aeronautical University’s research centers serve as interdisciplinary hubs for faculty, students and staff dedicated to strategic research areas. These centers, recognized as high-priority investments, facilitate collaboration on large-scale research projects involving multiple university investigators. Our researchers explore new sources of space, cyber and safety data and new analysis techniques in AI/ML to make risk management and modeling more efficient and effective.

The Boeing Center for Aviation and Aerospace Safety at Embry-Riddle enables collaboration between industry and academia to tackle safety concerns in the increasingly complex aviation ecosystem. Leveraging thought leadership from Embry-Riddle faculty and industry partners, the Center provides innovative paths to improve safety. Through research and industry engagement, the Center provides real- time solutions to the industry, while preparing for the safety challenges of the future. The Center for Aerospace Resilience Systems (CARS) provides resilient systems solutions that support carrying out the mission in the face of adversity for private sector and government organizations. As a key element of resilience, cybersecurity is both mission and safety critical, particularly as modern aircraft are increasingly software- driven, highly connected and computer-reliant. CARS pursues multidisciplinary research to protect the confidentiality, integrity and availability of data and communications for assuring the resilience of aerospace platforms, vehicles, airspace, air traffic management systems and other supporting aerospace infrastructure elements. The Center for Space and Atmospheric Research (CSAR) investigates the fundamental physics of planetary atmospheres and space environments, including Earth’s and other planet’s Atmosphere, Ionosphere and Magnetosphere (AIM) systems. CSAR’s multidisciplinary team applies expertise in theory, modeling, observation and experimentation to tackle research problems in space and atmospheric sciences and engineering. By assembling faculty and staff teams, CSAR swiftly addresses challenges and explores opportunities, innovating applications for the benefit of the public, academia, government and industry. Part of CSAR, the Space and Atmospheric Instrumentation Lab (SAIL) builds scientific instruments and develops associated technologies to research Earth’s atmosphere and near-earth space weather. SAIL is card-access controlled for conducting export-controlled (ITAR) and restricted R&D.

28 Research projects by Embry-Riddle students and faculty at the Boeing Center for Aviation and Aerospace Safety Research Symposium. (2025) $ 10 + T Projected global cost of cybercrime by 2025 (Source: esentire.com)

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AIRWORTHINESS ENGINEERING

2 Education options: the Master of Science in Airworthiness Engineering and the Graduate Certificate in Airworthiness Engineering ONLINE All Airworthiness Engineering courses are offered through our Worldwide/Online Campus

Current FAA regulations require DER applicants to possess deep engineering experience, as well as familiarity with airworthiness standards. Embry-Riddle’s options for airworthiness engineering education prepare future DER applicants for careers in testing and certifying aircraft systems, parts and products to ensure compliant and safe operations. Our options are also ideal for professionals who wish to develop a general awareness of airworthiness. Airworthiness is an ever-evolving field marked by frequent and dramatic change. For this reason, individuals interested in an airworthiness engineering career require timely education led by experts. Embry-Riddle faculty have extensive industry experience, and they provide students with first-hand knowledge and guidance. Our airworthiness engineering programs are informed by Industrial Program Advisory Board input, and our Master of Science in Airworthiness Engineering is the only program currently accepted by the FAA as credit toward a DER certification. Airworthiness engineering courses offer an exploration of relevant civil and military airworthiness requirements in vehicle development and operation, including state of operation over a useful life. Classes provide an understanding of the implications and impact of airworthiness on crewed, uncrewed and other innovative vehicle systems. Embry-Riddle Aeronautical University is the world’s first FAA-accepted program in airworthiness engineering. Become a Designated Engineering Representative (DER), enhance your understanding of airworthiness or prepare for an airworthiness engineering career with our Master of Science and Graduate Certificate in Airworthiness Engineering.

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+1 (800) 522.6787 | worldwide@erau.edu

04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AVIATION ARTIFICIAL INTELLIGENCE/ MACHINE LEARNING

Embry-Riddle Aeronautical University specializes in crafting Artificial Intelligence (Al) and Machine Learning (ML) solutions specific to the aviation ecosystem, from flight operations to aviation management. Our Al and ML research, algorithms and custom solutions can help you to:

$ 15.7 T AI’s expected contributions to the global economy by 2030 (PwC, 2017). 37.3 % Global AI market size compound annual growth rate (CAGR) (Grand View Research, 2023). 83 % Executives who believe AI is a strategic priority (Forbes, 2019).

Improve Engineered System Performance Enhance satellite orbit prediction accuracy. Predict hypersonic projectile in-flight behavior. Improve decision-making capabilities of autonomous systems. Enhance situational awareness and positioning accuracy through sensor fusion techniques.

Assist with dynamic network management. Optimize the behavior of drone swarms.

Improve Training and Flight Deck Performance Allow trainees to explore alternatives in varied or otherwise cost-prohibitive scenarios. Augment safety actions during unexpected events with onboard, real-time diagnostics. Monitor pilot alertness with eye-tracking technology and cockpit motion detection. Improve Aircraft Maintenance Increase fleet readiness and refine use of reserve aircraft through predictive maintenance. Expedite validation of system updates to speed certification without compromising safety. Improve Flight Operations Enhance safety with autonomous speech and airport taxiway sign recognition. Improve airport taxiing using vision and ranging-based object recognition. Enable crew and air traffic control to negotiate routes between aircraft and onboard route change advisor. Control costs by Improved Sequencing of takeoffs, landings and scheduling. Reduce fuel consumption based on weather trends and near-term predictions. Deploy appropriate Al/ML solutions to enhance the security/cybersecurity of operations.

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AVIATION CORPORATE EDUCATION

Powering the Future of Aviation Workforce Excellence As the global leader in aviation education, Embry-Riddle Aeronautical University equips organizations with the knowledge and expertise needed to attract, develop, and retain top talent. Embry-Riddle’s professional education, customized training solutions and specialized certificate programs integrate emerging technologies and industry best practices to meet the critical demands of aviation and aerospace, including:

FLEXIBLE

In-person and online educational opportunities.

Aircraft Certification Aircraft Accident Investigation Airport Planning and Design Airport Risk Management Aviation Accounting and Finance Aviation Cybersecurity Aviation English

Aviation Sustainability Avionics

INNOVATIVE

Corporate Aviation Management Disaster Assistance and Response Emergency Management FBO Management Human Factors and HFACS OSHA General Industry Training Pilot Ground Schools Pilot Selection Uncrewed Aircraft Systems (UAS)

Cutting-edge programs tailored to industry needs.

Aviation Management Aviation Psychology Aviation Risk Management Aviation Safety

EXPERT-LED

Taught by leaders with extensive industry experience.

At Embry-Riddle Aeronautical University, we are committed to continuing professional education and lifelong learning, offering a diverse selection of aviation-focused courses designed for industry professionals in operations, management, and leadership roles. Taught by renowned industry experts with decades of experience in both the field and academia, our programs provide the knowledge, skills, and competitive edge needed to excel in today’s dynamic aviation landscape. For over a decade, Embry-Riddle has been a trusted partner in delivering customized training solutions to government agencies and private organizations worldwide. Our tailored courses cover critical industry areas, including:

IMPACTFUL

Equipping professionals with skills to advance their careers.

Advanced Safety Management Systems in Aviation (SMS) Aircraft Accident Investigation Uncrewed Aircraft Systems (UAS) System Safety Engineering and Certification

Aviation English Human Performance Media Relations in Accident Investigation

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AVIATION CYBERSECURITY

Embry-Riddle Aeronautical University draws on cybersecurity principles, safety, certification and assurance experience to educate aviation professionals.

FIRST Cybersecurity engineering program with required safety and certification core ONLY Aviation maintenance program with a cybersecurity track 4.8 MIL

Our Center for Aerospace Resilience Systems (CARS) coordinates research on cybersecurity engineering across the university, contributing to product development in collaboration with industry and federal agencies. Our engineering teams at Embry-Riddle are at the forefront of advancing aerospace, aircraft, and aviation cybersecurity. We develop innovative solutions for flight operations, unmanned aircraft systems (UAS), and satellite systems. Our researchers play a pivotal role in shaping the future of the industry by contributing to standards and policies, technology development, and best practices. We actively collaborate with leading organizations, including the ICAO Trust Framework and Cyber Security Panels, EUROCAE WG-72 ED-203A / RTCA SC- 216 DO-356A, ACI US-ACCESS, the AIA Civil Aviation Cybersecurity Subcommittee, the Cyber Safety Commercial Aviation Team, and the FAA’s REDAC SAS. Beyond our research contributions, we offer specialized short courses and certification programs in aviation cybersecurity. Embry-Riddle has also led and hosted ‘Capture The Flag’ (CTF) events, a cornerstone of cybersecurity training, at major venues like A-ISAC, ACI Cyber Rodeo, AIAA, RSA Conference, DEFCON Aerospace Village, and more. Our commitment to education and real-world application cements our position as leaders in aviation cybersecurity.

Our portfolio of aviation cybersecurity projects includes: Aircraft-based detection of GPS spoofing Trustworthiness models for aviation systems Risk management for Positioning, Navigation and Timing (PNT) services Threat modeling and mitigation for avionics Cyber resilience analysis of components and interdependencies Rapid certification of software updates and aircraft certification support Onboard expert systems to aid pilots in emergency decision-making Cybersecurity risk management for trajectory-based operations Counter-drone technology to bring down rogue drones safely

Current global cybersecurity workforce gap (Source: ISC2)

Contact Us Find out how Embry-Riddle can help your business: Office of Corporate Engagement Rodney Cruise, Chief Operating Officer and Senior Vice President +1 (386) 226.7303 | corporate.engagement@erau.edu Zero-Trust architecture for aviation systems Aviation Cybersecurity Data Science & AI/ML Autonomous & AAM/UAS Systems

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AVIATION DATA ANALYTICS

Embry-Riddle Aeronautical University drives efficiencies using data from across the aviation ecosystem: infrastructure, aircraft sensors, maintenance, weather, air traffic and passengers. We consult with manufacturers, airlines, UAS fleets, Urban Air Mobility, leasing operations and MROs to reduce costs, maximize utilization while improving safety and optimizing the supply chain. We can help the industry analyze data, score and rank processes and re-engineer processes and ecosystems to achieve measurable benefits, such as:

42 % Flights delayed by mismanaged, airline-controlled processes (Source: IATA)

Automatically coding maintenance discrepancies and corrective actions performed on fleet Increasing aircraft availability using data from OEMs and fleets to drive predictive maintenance Minimizing downtime and delays by using data to improve supply chain management Reducing fuel consumption, time, emissions and noise by identifying efficient algorithms for aircraft trajectory optimization in the air traffic system Fusing comprehensive safety data through information acquired from various sources such as safety reports, in-flight telemetry, air traffic surveillance and weather data Analyzing trends so lessors realize better cash flow across the life cycle of their assets Optimizing network, fleet and workforce operations Enhancing corporate value by creating optimal hedging strategies for fuel, currency and risk Acquiring operational service insights from customer data Maximizing revenue by combining variable pricing and inventory management methods Our scientists have been enlisted to develop and enhance weather decision- making aids for use in general and commercial aviation

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04.21.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AVIATION ENGLISH

Embry-Riddle’s Aviation English Department develops and delivers Aviation English programs that engage and motivate aviation professionals, improving their English language skills as well as their operational and safety awareness. Embry-Riddle Worldwide Aviation English programs align with International Civil Aviation Organization (ICAO) Language Proficiency Requirements and ICAO recommendations for content-based language teaching and are carefully designed by experts in applied linguistics to advance learners along the ICAO Language Proficiency Rating Scale. Our current Aviation English programs address the needs of student pilots and air traffic controllers. Embry-Riddle provides ab-initio trainees with the opportunity to develop the necessary English proficiency for flight and air traffic control training in an adaptable and online learning platform.

English for Flight Training (9-weeks) EFLT is an online, instructor-led, aviation English course designed to prepare ab- initio cadets for flight training.

English for Air Traffic Control (12-weeks) Controllers learn and practice English language skills while acquiring knowledge about topics such as Human Factors, Unusual and Emergency Situations, In-Flight Fire Emergenices and New ATC Technologies.

English for Flight Training Assessment (EFTA) A standardized online test to evaluate aviation English proficiency for flight training readiness.

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AVIATION MAINTENANCE SCIENCE

FIRST Our all-female team just won first place in the 2023 Aerospace Maintenance Competition.

Demand for aviation maintenance professionals will top 690,000 over the next 17 years. Embry-Riddle Aeronautical University is preparing a qualified workforce to meet the need with certification programs and undergraduate and graduate degrees. The Aviation Maintenance Science (AMS) Department is dedicated to producing the best prepared and most qualified graduates to fill a vast array of career opportunities within the aerospace industry. AMS arms its students with advanced technical knowledge and the practical skills needed by tomorrow’s aviation maintenance technicians. Our greatest asset is our highly experienced faculty who have decades of experience in the industry. AMS utilizes state-of-the-art laboratories, a dedicated hangar, enclosed turbine and reciprocating engine run test cells, several aircraft, ground support equipment, and a host of other equipment to provide our students a world-class education. Highlights: Our program exceeds the Federal Aviation Administration’s (FAA) requirements by including advanced maintenance practices in avionics, fiber optics, satellite communication/connectivity, turbine engines, composites, human factors, inspections and troubleshooting in its curriculum. The AMS program is programmatically accredited by the Aviation Accreditation Board International. Students have the opportunity to work in an FAA-approved Part 145 engine repair station in the course of their training. Some students may have the opportunity to work in Embry-Riddle’s Fleet Maintenance Hangar, maintaining airworthy aircraft. Students can choose coursework in avionics line maintenance and cybertechnology and security leading to a range of additional certifications. Our alumni are leaders in the industry, and our reputation ensures our graduates are highly recruited.

FIRST Embry-Riddle’s AMS degree is the first to include avionics cybertechnology and security coursework.

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

AVIATION MAINTENANCE TECHNOLOGY SKILLBRIDGE PROGRAM

784 Students with new cohorts starting three times per year 722 Program graduates 98.5 % Program completion rate 98 % Interview rate after program completion 91 % Offer rate of employment * SkillBridge data accurate through March 10, 2024

Supporting transitioning service members, veterans and military spouses. The Embry-Riddle Aeronautical University Aviation Maintenance Technology (AMT) SkillBridge program is an approved Department of Defense SkillBridge program. The program supports transitioning service members, veterans and military spouses into aviation maintenance technician careers. Certifications and Degree Programs: The full-time, nine-week SkillBridge program prepares eligible students for the FAA Part 65.77 written, oral, and practical examination; Aviation Maintenance Technology Part 65 Certificate; B-737 Familiarization Certificate from industry partner AAR. Student Population: Students include military service members who are within 180 days of separation or retirement, as well as veterans and military spouses. Employment Strategy: Eligible students receive guaranteed interviews with a minimum of the following industry partners: AAR, Amentum, Boeing, HAECO Americas, Hawaiian Airlines, Honeywell, Lockheed Martin, Northrop Grumman and Standard Aero. Industry partners are committed to coaching and interviewing program participants. According to the U.S. Bureau of Labor Statistics, the mean annual salary for aircraft mechanics and service technicians is $65,550.

Training Locations: Camp Lejeune- New River North Carolina Ft. Carson Colorado Fort Bragg North Carolina

Norfolk Virginia Oceanside-Camp Pendleton California

Ft. Campbell Kentucky Virtual Nationwide

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

THE BOEING CENTER FOR AVIATION AND AEROSPACE SAFETY

The Boeing Center for Aviation and Aerospace Safety was founded to take on aviation safety’s most pressing challenges. Through research, education, and industry engagement, the Center leverages Embry-Riddle’s faculty of more than 1,300 to solve hard problems and share new knowledge. The Center’s mission is accomplished through four pillars: Research // Conducting relevant and impactful research to enhance safety. Areas of emphasis include: Aeromedical Factors AI-enabled Data Analytics Human Contribution to Safety Loss of Control In-Flight Safety Culture Spatial Disorientation Academic Programs // Supporting industry-leading safety education at the undergraduate and graduate levels at all three campuses. Programs include: Bachelor of Science in Aviation Safety Bachelor of Science in Aerospace and Occupational Safety Bachelor of Science in Human Factors Psychology

ADVANCING THE SAFETY OF ALL WHO FLY.

Directing the center are two highly qualified aviation professionals. Executive Director, Honorable Robert L. Sumwalt , is a highly distinguished aviator and former chairman of the U.S. National Transportation Safety Board (NTSB). Associate Director, Kristy Kiernan, Ph.D., is a former Coast Guard aviator, where she served as aviation safety officer and lead pilot for technical issues in the Falcon 20. Her current research investigates the positive contribution of human performance to aviation safety.

Master of Science in Safety Science Master of Science in Aviation Safety Ph.D. in Aviation with a specialization in Aviation Safety

Professional Education // Providing highly specialized executive education in support of aviation and aerospace safety. Custom course development available. Courses include: Accident and Incident Investigation Data Analytics and AI in Aviation Safety

Disaster Assistance and Response Emergency Response and Resilience Human Performance Safety Management Systems

Industry Engagement // Promoting thought leadership and serving as a platform for engagement and debate, through: Providing a venue for industry experts to interact with students and faculty Supporting NTSB internships for students Connecting faculty and students with industry-driven research projects Collaborating with other centers of excellence within the university to further our mission Providing expert contribution at safety conferences to solve the most crucial safety issues

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Contact Us The Boeing Center for Aviation and Aerospace Safety Robert Sumwalt, Executive Director + 1 (386) 241.1958 | robert.sumwalt@erau.edu

04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

THE BUSINESS OF FLIGHT

The aviation industry supports 87.7 million jobs worldwide and $3.5 trillion in global economic activity. Embry-Riddle Aeronautical University is preparing aviation and aerospace business leaders for the future.

50 + YRS From modest beginnings with a single degree in Aviation Management, business education has grown to become a vital part of Embry-Riddle. FIRST The nation’s first Master of Science in Aviation Finance, Aerospace Business Analytics and Doctorate program in Aviation Business Administration.

Embry-Riddle Aeronautical University provides world-class aviation and aerospace business education. Our strategic Business of Flight ® approach places our graduates on the leading edge of innovation. Embry-Riddle’s business faculty are experts in their fields, with experience at some of the world’s top companies. They have strong connections to industry and are uniquely qualified as mentors and coaches. Successful alumni from top companies regularly recruit Embry-Riddle students for internships and positions around the globe. Our students secure rewarding careers with leading airlines, aircraft manufacturers, financing companies, airports, space companies and aviation consulting companies. We offer bachelor’s and master’s degrees in Aviation Business Administration and Business Administration, master’s degrees in Aerospace Business Analytics and Aviation Finance and a Doctorate in Aviation Business Administration. Highlights: The David B. O’Maley College of Business provides a world-class business education in aviation and aerospace, placing our graduates at the leading edge of business leadership and innovation Embry-Riddle is a pioneer in offering a Master of Science in Aerospace Business Analytics, Aviation Finance and a Doctorate in Aviation Business Administration Our faculty experts offer extensive academic as well as real-world experience; 16 have authored leading aviation and business textbooks Our alumni are influential CEOs and entrepreneurs in aviation, aerospace, aviation insurance and risk management

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

CENTER FOR AEROSPACE RESILIENT SYSTEMS

The Center for Aerospace Resilient Systems (CARS) provides a “One Embry-Riddle” approach, leveraging faculty and students across all departments and campuses. There continues to be many threats to the resilience of aerospace systems. Today’s emerging technologies offer both amazing new capabilities as well as new complications. CARS continues to work with industry, government and academic partners to address key emerging challenges to the resilience of our aerospace ecosystem: Aerospace Cybersecurity AAM/UAM/UAS/UTM AI/ML, Data Science Space Systems Autonomous Systems Airspace Systems Operations Resilience Related Training Solutions

The Aerospace Cybersecurity Challenge Emerging and rapidly evolving cybersecurity risks are confronting the aviation and aerospace ecosystem. CARS addresses the cyber resilience of safety-critical aviation & aerospace systems and cultivates new areas of research & development through innovative applications of technologies such as artificial intelligence (AI), machine learning (ML), data science and analytics to enhance cybersecurity, cyber safety and cyber resilience of the aerospace ecosystem. Our national security and economic interests rely on the proper functionality and availability of the aerospace infrastructure. Once isolated and independent, aviation and aerospace systems are evolving to become more interconnected, software driven and computationally intensive. While enhancing efficiency, this also increases the risks of compromise. The criticality of aerospace systems and their adaptation to evolving demands require focusing on innovative solution development rooted in safety culture. The Impact CARS is Embry-Riddle’s nexus of innovation for emerging high-assurance aerospace systems technologies and solutions. Bringing together Embry-Riddle Aeronautical University experts in Al, cybersecurity, data science, software and hardware with specialists from industry and government agencies, CARS provides a creative and collaborative environment to respond to the domain’s greatest opportunities and challenges. As the first center to integrate cybersecurity and data analytics R&D focused on aviation and aerospace, CARS advances the Embry-Riddle’s service to the aerospace community by providing: Multidisciplinary expertise in collaboration with industry, government and academic partners to address challenges facing aerospace systems and infrastructure. A partner in commercialization that will work with industry to license technology. A centralized knowledge base that shares findings through presentations and publications. Resources to support workforce development and customize training scenarios using physical and virtual tools.

Vision Inspiring the next generation of aerospace systems professionals through innovative research and education in collaboration with universities, governments and the leading aerospace companies around the world. Mission To be a world leader in the research and innovation of safe, secure and resilient aerospace system solutions that meet

the needs of our global aerospace community.

The Center for Aerospace Resilient Systems has been established to amplify Embry-Riddle’s contribution to the economic development of the region.

Contact Us Office of Corporate Engagement Rodney Cruise, Chief Operating Officer and Senior Vice President +1 (386) 226.7303 | corporate.engagement@erau.edu

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

FUTURE OF HYPERSONIC FLIGHT

# 5 Embry-Riddle’s undergraduate Aerospace Engineering program is ranked no. 5 in the nation by “U.S. News and World Report” (among schools whose highest engineering degree offered is a doctorate). 16 YRS Embry-Riddle’s Aerospace Engineering program has been conducting externally-funded research and collaborations with industry on hypersonic technologies for the past 16 years. BEST Embry-Riddle’s Aerospace Engineering program places emphasis on real-world, “hands-on” applications within its curriculum and research endeavors, including several top ten performances (#1 in the U.S. in 2024) in the AIAA Design- Build-Fly competition (a prime competition for Aerospace Engineering students).

The U.S. aerospace industry is rapidly growing to support military and civilian applications of hypersonic flight: The Pentagon’s annual budget currently includes more than $4.7 billion/year to support hypersonic R&D, including for hypersonic defense systems and the recently formed U.S. Space Force. At NASA, research into space and hypersonic technologies is also a priority to enable fast civilian travel on Earth, as well as to enable future exploration. Commercial space flight, including launch vehicles and space tourism, also remains a rapidly growing sector involving hypersonic flight. Embry-Riddle’s Aerospace Engineering program provides a world-class education for joining the hypersonic workforce: The Aerospace Engineering department at Daytona Beach is one of the largest in the country with approximately 2,320 bachelor’s, 93 master’s and 72 Ph.D. students as of Fall 2024. Embry-Riddle has developed a specialized hypersonic curriculum within its top-ranked Aerospace Engineering program, including courses which address design and analysis of hypersonic vehicles using cutting-edge computational tools and experimental methods. Aerospace Engineering faculty have supported scramjet engine development programs for the DoD and NASA with high-fidelity computations, including development of novel turbulence-chemistry interaction models. Aerospace Engineering faculty are currently developing innovative devices to test ultra-high temperature materials under hypersonic-like thermo mechanical environments. Embry-Riddle is currently configuring and acquiring a variety of specialized experimental equipment for a new building dedicated to hypersonics research.

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

HUMAN-MACHINE INTERFACE

As a leader in aviation and aerospace innovation, Embry-Riddle Aeronautical University is uniquely positioned to provide extensive research support for the human-machine interface technologies essential to the next generation of commercial airliners and aviation commerce.

1 +

We have the expertise, research capability and infrastructure to study information processing, situation awareness, training and flight-deck performance issues. We recognize that new interface designs will require significant testing as well as sweeping changes to flight decks. The insights of our interdisciplinary team can provide solutions with a focus on human-machine interface. Embry-Riddle is ideally suited to lead research in this rapidly emerging field. Our faculty experts have provided leadership to relevant Radio Technical Commission for Aeronautics (RTCA) committees. Our state-of-the-art research facilities support experimental flight testing, aircraft modifications for FAA certification, design and testing of uncrewed aircraft systems (UAS), development and verification of high-fidelity (up to Level D) flight-data models used in engineering and training simulators. Highlights: Expert faculty members in uncrewed aerial vehicles, human factors, consumer perceptions research and human-machine interfaces The Next-generation Embry-Riddle Applied Research (NEAR) Lab is a research and development enterprise providing software engineering, systems engineering and modeling and simulation services Embry-Riddle is working to help safely integrate UAS into the National Airspace We are focused on advancing awareness of the need for Aviation English proficiency Our comprehensive aviation research infrastructure and expertise is unique and differentiates us from other institutions of higher education Our interdisciplinary research teams can go deep inside the issues and opportunities that surround human-machine interface on the flight deck

MIL

Number of UAS registered in the U.S. according to the Federal Aviation Administration 7 Number of doctoral programs offered at Embry-Riddle

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04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

MASTER OF SPACE OPERATIONS

Embry-Riddle Aeronautical University’s online Master of Space Operations provides the tools and knowledge necessary to prosper in today’s rapidly evolving space industry.

Admission The program welcomes students from a variety of backgrounds, such as business, finance, safety, occupational health, the military and more. A STEM background is not necessary to be successful in this program. ALL APPLICANTS NEED A minimum cumulative grade point average (CGPA) of 2.5 A bachelor’s degree from an accredited degree-granting institution Official transcript(s) from the accredited degree-conferring institution(s) Admittance to the program may be granted conditional on completion of selected undergraduate courses specified at the time of admission. Who Can Apply Professionals in the space industry seeking to further their career Professionals from other industries who want to become subject-matter experts

Our cutting-edge program produces graduates with the expertise and professional skills required to develop a comprehensive perspective on the current state of the space ecosystem and its challenges. In this flexible online curriculum, students explore the STEM principles and theory necessary for conducting spaceflight operations and create strategies for developing space capability and executing spaceflight missions. Upon completion of the program, graduates will be subject matter experts prepared to become industry leaders. The Master of Space Operations was specially designed by a team of world-renowned experts. Our brilliant faculty have extensive industry experience and expertise, bringing a unique, real-world perspective to the program. The Program The Master of Space Operations (MSO) provides graduates with the knowledge, skills and abilities necessary for rewarding careers in the growing space industry. The program’s core courses will help students deepen their understanding of the realities of commercial space, space technology, program management, policy, law and business. The Embry-Riddle Advantage As a leader in online education, Embry-Riddle’s MSO provides students with a top-notch learning experience. The program was created for students seeking to enhance their education without interfering with their work, helping employers develop and retain talent. With a total of 30 credit hours, this flexible degree can be completed in less than two years. Courses are delivered entirely online and can be completed at each student’s preferred pace and order. Course Focus Courses in the MSO program explore topics rooted in domain awareness, technical understanding and functional execution. The interdisciplinary curriculum includes classes ranging from The Launch Industry and Earth Observation and Remote Sensing to Cybersecurity Application in Space and Space Law and Policy. Through these courses, students will understand the unique features of the space domain, gain the knowledge required to contribute substantively and learn the skills to execute space operations.

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Contact Us For more information contact: College of Aviation, Worldwide/Online +1 (800) 522.6787 | wwaero@erau.edu | worldwide.erau.edu/mso

04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

SYSTEMS ENGINEERING

$ 73,621 The average income for graduates with a B.S. in Systems Engineering (Salary.com) $ 116,000 The average income for graduates with an M.S. in Systems Engineering (Payscale.com)

A Systems Engineering education provides students with the necessary technical background to communicate across engineering disciplines. Students learn to collaborate with diverse technical professionals while developing the required decision analysis skills to secure, operate and optimize engineering resources. Embry-Riddle Systems Engineering graduates emerge equipped with practical skills in the design, programming and analysis of intricate systems, including those in aerospace, aviation and defense. Our students benefit from world-renowned faculty and an industry-informed curriculum that focuses on real-world engineering challenges. Prospective students interested in Systems Engineering can choose between our Daytona Beach, Florida, and Worldwide Campuses. Our educational offerings include: Systems Engineering plays an essential role in the aerospace, aviation and defense industries. As the leader in aviation and aerospace education and research, we prepare students to oversee complex systems that are more efficient, effective and safer.

Bachelor of Science in Systems Engineering Daytona Beach, Florida, Campus New in May 2024 Graduate Certificate in Systems Engineering Worldwide/Online Campus Master of Science in Systems Engineering

Daytona Beach, Florida, Campus Master of Systems Engineering Worldwide/Online Campus

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+1 (800) 522.6787 | daytonabeach@erau.edu | worldwide@erau.edu

04.17.25

EMBRY-RIDDLE AERONAUTICAL UNIVERSITY

EMBRY-RIDDLE AT A GLANCE

95% of surveyed Embry-Riddle graduates are employed or are continuing education within one year of graduation. Institutional Research, 2024

Embry-Riddle Aeronautical University offers comprehensive academic programs focused on aerospace, aviation, business, computers and technology, engineering, security, and intelligence. Florida Campus /// Home to an innovative research park and adjacent to the Daytona Beach International Airport, the Daytona Beach Campus is located at the world’s gateway to space. It is a leading hub for aerospace and aviation manufacturing. Arizona Campus /// Nestled a mile high in the mountains of Northern Arizona, the Prescott Campus is home to the nation’s first College of Business, Security and Intelligence, which boasts high-tech, high-demand programs, including Global Security and Intelligence Studies. Worldwide Campus /// Online education is available anywhere, anytime through our award-winning platform. Our Singapore Campus is at the heart of the fast-growing Asia-Pacific region, and our location in Brazil is advancing professional aviation education and research in Central and South America. We also offer Professional Education courses tailored to fit your needs and designed to help you reach your specific goals.

31,000+ STUDENT POPULATION

100+ DEGREE PROGRAMS

Among the Nation’s Best U.S. News & World Report, 2024-2025

#1 Most Innovative Schools: South and West #1 Best Undergraduate Aerospace Engineering (Schools without Ph.D.) : West #1 Best Regional Colleges: West

3 CAMPUSES Daytona Beach, Florida Prescott, Arizona Worldwide / Online

#1 Best for Veterans: West #3 Best for Veterans: South #4 Best Value Schools: West

#5 Online Bachelor’s Programs for Veterans #5 Best Undergraduate Aerospace Engineering (Schools with Ph.D.) : South #5 Best Regional Universities: South #7 Best Online Master’s Engineering Programs for Veterans #8 Best Undergraduate Teaching Programs: South

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