Course List

The list below includes the entire current roster of AIAA courses – those we’re currently offering and those we plan to offer in the near future. There’s a course for every need, in a variety of useful formats: short courses; distance learning courses; and tutorials. And since we add new courses on a frequent basis, be sure to check back regularly to see what’s new.
  

A Practical Introduction to Preliminary Design of Air Breathing Engines

Advanced Composite Structures 

Advanced Computational Fluid Dynamics

Advanced Solid Rockets

Advanced Spacecraft Control and Dynamics

Aeroelasticity: State-of-the-Art Practices

Aircraft and Rotorcraft System Identification: Engineering Methods and Hands-on Training Using CIFER®

Aircraft Handling Qualities

Aircraft System Identification – Theory and Practice

Atmospheric Flight Dynamics and Control

Aviation Fuels: Physical and Combustion Properties

Basic Measurement Uncertainty, Methods and Applications

Basics of Satellite Communications and Communication Satellites

Best Practices in Wind Tunnel Testing

CFD for Combustion Modeling

Computational Aeroacoustics: Methods and Applications

Computational Fluid Turbulence

Concepts in the Modern Design of Experiments

Electric Propulsion for Space Systems

Electro-Optical Systems for Aerospace Sensing Applications

Emerging Principles in Fast Trajectory Optimization

Flight Vehicle System Identification in Time Domain

Fundamentals and Applications of Modern Flow Control

Fundamentals of Aircraft Performance and Design

Fundamentals of Composite Structure Design

Fundamentals of Hypersonic Aerodynamics

Fundamentals of Kalman Filtering: A Practical Approach

Fundamentals of Tactical and Strategic Missile Guidance

Fundamentals of the International Traffic in Arms Regulations for Non-Military Space Activities

Gossamer Systems: Analysis and Design

Guidance of Unmanned Aerial Vehicles

High-Altitude Testing of Aircraft Engines

Hybrid Rocket Propulsion

Hydrogen Safety

Introduction to Bio-Inspired Engineering

Introduction to Computational Fluid Dynamics

Introduction to Non-Deterministic Approaches

Introduction to Space Flight

Introduction to Space Systems

Large-eddy Simulations: Theory, Applications and Advanced Topics

Liquid Propulsion Systems – Evolution and Advancements

Making Decisions in Missile Defense

Mathematical Introduction to Integrated Navigation Systems, with Applications

Missile Design and System Engineering

Modeling Flight Dynamics with Tensors

NPSS - A Practical Introduction

Nuclear and Future Flight Propulsion: Nuclear Systems and How They Work

Optimal Design in Multidisciplinary Systems

Optimal State Estimation

Perturbation Methods in Science and Engineering

Phased Array Beamforming for Aeroacoustics

Radar Principles and Applications

Robust Aeroservoelastic Stability Analysis

Robust and Adaptive Control Theory

Satellite Attitude Estimation

Satellite Communications: Advanced Networks & Technology, Future Trends, and Defense Systems

Sensitivity Analysis, Uncertainty Propagation, and Validation for Computational Models

Sensor Systems and Microsystems: From Fabrication to Application

Six Degrees of Freedom Modeling of Missile and Aircraft Simulations

Space Environment and Its Effects on Space Systems

Spacecraft Design and Systems Engineering

Stability and Transition - Theory, Experiment, and Modeling

State Analysis - A Model-based Engineering Method for Systems and Software Engineers

Systems Engineering Verification and Validation

Systems Requirements Engineering

The Space Environment-Implications for Spacecraft Design

Turbulence Modeling for CFD

Verification and Validation in Scientific Computing

Vision-Based Control for Autonomous Vehicles

Weaponeering - Conventional Weapon System Effectiveness