ü This class familiarizes users with the workflows of modeling and analyzing a UAV mission using digital mission engineering best practices.
ü All students will receive an AIAA Certificate of Completion at the end of the course
OVERVIEW
Advances in materials, electric propulsion, and
control systems have greatly expanded the feasible design envelope, especially
for small VTOL aircraft. These advances are beginning to make the dream
of Urban Air Mobility (UAM) a reality. However, existing design approaches
based on stable mission requirements and historical data for first order sizing
cannot optimally address the combination of open aircraft design space with a
new, unfamiliar mission space. Digital Mission Engineering (DME)
facilitates the simultaneous development of operational concepts and aircraft
design. We explore how DME can be used to improve the design process
and lead to better operational and aircraft design than available with existing
legacy design tools and approaches, and help crack the code on UAM.
Though Ansys Digital Mission Engineering (DME) software products are used in the course to illustrate example models, the course content covers generalized principles and is applicable to all, regardless of one's digital engineering tool of choice.
LEARNING OBJECTIVES
- Create a scenario using DME
- Understand mission interference and communications
- Understand the importance of mission design for new technologies
- See how an integrated mission environment informs aircraft design iteration
- Use a mission model to identify and resolve AAM operations management issues
- Use integrated mission and design tools to inform multi-aspect design optimization
AUDIENCE: Aerodynamics Engineers, Aerospace Engineers, Antenna Design Engineers, UAV Operators, System Engineers, and Thermal Engineers.
COURSE FEES (Sign-In To Register)
- AIAA Member Price: $595 USD
- Non-Member Price: $795 USD
- AIAA Student Member Price: $395 USD
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OUTLINE
Part 1: DME Fundamentals: Exploring mission concept
- Understand complexities of AAM operational environment
- Explore different operational concepts and implications
- Perform basic system assessment for differing operational concepts
- Develop and iterate on system of systems requirements
Part 2: DME for Trajectory Development: Iterating aircraft design
- Review how operational design and aircraft design influence each other
- Discuss complexities of aircraft design in context of variable mission design
- Demonstrate benefit of rapid iteration between aircraft characteristics and mission impact
Part 3: DME and Operations Research: Making AAM safe and efficient
- Visualize how AAM will dramatically alter existing airspace management
- Determine control systems and operations management needs
- Explore potential applications of mission modelling for operations research
Part 4: DME and Understanding Trade Space: Assessing the full problem
- Discuss mission-centered multi-domain optimization
- Assess importance of tool integration and different options
- Demonstrate automated trade space study and benefits
- Introduce test
and evaluation challenges and mission engineering applications
INSTRUCTORS
Robert Etter is a product manager at Ansys Government Initiatives (AGI). Since joining in 2021, he has been responsible for Air Systems and Test and Evaluation capabilities at AGI. His current activities are focused on determining new capability priorities and applications of Digital Mission Engineering. Prior to AGI, Robert was a P-3 Orion Tactical Coordinator, and in the Navy Reserves helped guide Office of Naval Research efforts in hypersonic flight research. Robert has a BS in Aerospace Engineering from the University of Illinois, an MS in Aeronautical Engineering from the Air Force Institute of Technology, and an MBA from the University of California-Berkeley.
Jesse Schlosser joined Ansys Government Initiatives (AGI) as a Technical Support Engineer in April of 2023. As a support engineer, Jesse supports the entire DME portfolio, with a focused expertise on the air side of AGI DME products. She graduated from Widener University in 2023 with a BS and MS in Mechanical Engineering.
Classroom Hours / CEUs: 8 classroom hours / 0.8 CEU/PDH
Contact: Please contact Lisa Le or Customer Service if you have any questions about the course or group discounts.
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