ü From 29 April – 8 May, 2025 (2 Weeks, 4 Lectures/Classes, 8 Total Hours)
ü Every Tuesday and Thursday from 1:00 – 3:00 p.m. Eastern Time (all sessions will be recorded and available for replay; course notes will be available for download)
ü Deepen your understanding of aerospace autonomy and AI risk management with this third AIAA course in the Responsible AI series. It focuses on measuring, assessing, and mitigating the inherent risks in AI systems, from safety and security to governance and legal interventions.
ü All students will receive an AIAA Certificate of Completion at the end of the course.
OVERVIEW
This is the third in a series of AIAA Artificial Intelligence (AI) short courses focusing on Responsible AI. These courses are tailored to equip aerospace professionals with the essential knowledge, skills, and analytical abilities to tackle the challenges of responsibly designing and deploying AI-integrated systems. As AI becomes increasingly embedded in aerospace, it presents significant opportunities for efficiency, cost reduction, and safety enhancement. However, recognizing and mitigating the associated risks is essential to ensure the safety, reliability, and ethical integrity of these technologies.
This course will explore the fundamental issues that underpin risk inherent in aerospace systems that utilize AI. Students will learn how to measure these risks, assess the impacts and harms that could result from AI, and formulate plans for managing risks including testing, maintenance, governance and legal interventions. Topics will include AI robustness, generalizability, validity, reliability, safety, and security.
These topics will be examined through specific aerospace use cases and current events, providing a grounded understanding of the challenges and considerations in autonomy and AI for the aerospace sector. This course will cover examples and use cases of AI applications in aerospace such asunderstanding AI risk fundamentals, measuring AI risks, predicting and assessing AI impact, and formulating risk management plans.
AUDIENCE
This course is designed for professionals tasked with
driving the safe and effective integration of AI within their organizations, including
the design, testing, and deployment of cutting-edge AI-based aerospace
technologies.
COURSE FEES (Sign-In to Register)
- AIAA Member Price: $495
USD
- Non-Member Price: $595
USD
- AIAA Student Member
Price: $295 USD
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OUTLINE
- AI, Autonomy & Human Decision-making: AI and autonomy are defined, along with explanations of how symbolic and connectionist AI function (including generative AI). These will be compared and contrasted to human decision-making.
- Risk & Systems: Risk and systems engineering fundamentals will be reviewed, with a discussion about how AI has changed these approaches.
- Hazards & Risks: Hazards unique to AI in aerospace systems will be covered as well as how hazard analysis techniques should be updated.
- Uncertainty & Perceived Risk: How, where and why uncertainty influences AI-embedded systems will be discussed, as well as the risk that various sources of uncertainty introduces into aerospace systems.
- AI & Safety: How safety models have changed with the introduction AI in aerospace applications will be discussed, along with AI safety management techniques.
- Human-AI Interaction: This module will discuss to pros and cons of human interactions with AI in both the design and use of aerospace systems.
- Explainable/Interpretable/Trustworthy AI: Definitions will be discussed, along with AI use cases to illustrate how these different concepts can be applied in aerospace applications.
- Testing & AI: How and why AI affects both developmental and operational testing will be discussed, along with unique AI considerations like software upgrades and certification concerns.
- AI Bias Management: How to manage the bias that is inherent in all AI systems will be discussed across the aerospace systems engineering lifecycle.
- AI, Cybersecurity & Risk: This module will cover what unique changes AI brings to aerospace cybersecurity and current mitigation strategies.
Professor Mary (Missy) Cummings received her B.S. in Mathematics from the US Naval Academy in 1988, M.S. in Space Systems Engineering from the Naval Postgraduate School in 1994, and Ph.D. in Systems Engineering from the University of Virginia in 2004. A naval pilot from 1988-1999, she was one of the U.S. Navy's first female fighter pilots. She is a Professor in the George Mason University College of Engineering and Computing, and directs the Mason Responsible AI program as well as the Mason Autonomy and Robotics Center. She is an American Institute of Aeronautics and Astronautics and Royal Aeronautical Society Fellow, and is a Commissioner for the Global Commission on Responsible Artificial Intelligence in the Military Domain.
COURSE DELIVERY AND MATERIALS
- The course lectures will be delivered via Zoom. Access to the Zoom classroom will be provided to registrants near to the course start date.
- All sessions will be available on-demand within 1-2 days of the lecture. Once available, you can stream the replay video anytime, 24/7. Recorded Videos will be available until 8 June 2025.
- All slides will be available for download after each lecture. No part of these materials may be reproduced, distributed, or transmitted, unless for course participants. All rights reserved.
- Between lectures during the course, the instructor(s) will be available via email for technical questions and comments.
Cancellation Policy: A refund less a $50.00 cancellation fee will be assessed for all cancellations made in writing prior to 5 days before the start of the event. After that time, no refunds will be provided.
Contact: Please contact Lisa Le or Customer Service if you have any questions about the course or group discounts.