LEARNING OBJECTIVES

AUDIENCE
The course is intended for any engineer, scientist, researcher, or manager who engages in the planning, execution, analysis, and/or reporting of flight test activities. The course is a broad overview and best suited to those with less than 10 years of experience or limited formal education in flight test engineering.

MATERIALS: All course slides and additional references will be available for immediate download. Stream the 20-hours of video recordings anytime, 24/7. No part of these materials may be reproduced, distributed, or transmitted, unless for course participants. All rights reserved.

CERTIFICATE: Receive an AIAA Course Completion Certificate upon viewing all course recordings. Please contact Lisa Le for a certificate.

COURSE FEES (Sign-In To Register)
- AIAA Member Price: $995 USD
- Non-Member Price: $1,195 USD
- AIAA Student Member Price: $595 USD

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OUTLINE

Class 1 – Introduction and Flight Test Examples

• Introduction to flight test

• Real-world test vignette – Importance of flight test

• Plan/Execute/Analyze/Report (PEAR) Process

Class 2 – Systems Engineering and Project Application

• Systems theory and scientific method applied to flight test

• Problem decomposition and generation of test requirements

• Project application – evaluation of an automobile cruise control and speedometer

Class 3 – Test Planning Process

• Elements of a test plan

• Test objectives and measures of performance

• Test methodology and test point matrix

• Real-world examples – test planning

Class 4 – Test Safety Principles

• System safety

• Hazard identification and mitigation

• Risk assessment

• Real-world examples - case studies

Class 5 – Test Conduct

• Test control and personnel roles

• Communication plan

• Pre-flight predictions

• Test safety risk reduction tools – monitoring safety parameters

Class 6 – Test Execution Resources

• Control room display principles

• Test card design principles

Class 7 (Hour 1) - Presentations – Project application

• Results from evaluation of an automobile cruise control and speedometer

Class 7 (Hour 2) – Flight Test Data Analysis Methods

• Accessing data and data formats

• Analysis methods

• Sample data analysis problems

Class 8 – Technical Reporting – Written Reports

• Technical writing concepts

• Guidance on grammar and mechanics

• Data presentation

• Sample data presentation tools

Class 9 (Hour 1) – Technical Reporting – Verbal Reports

• Verbal presentation skills

• Example presentation formats

Class 9 (Hour 2) – Problem Decomposition Project

• Introduction of sample test vignettes from various programs

Class 10 - Presentations – Problem Decomposition Project

• Application of test planning, risk identification, risk management, and resource provisioning
  
  

INSTRUCTOR

Ms. Jessica “STING” Peterson has over 18 years of experience in Flight Test Engineering on fighter, bomber, trainer, and unmanned aircraft. She is a graduate of the United States Air Force Test Pilot School (USAF TPS) and has over 500 hours in 40+ aircraft types as a Flight Test Engineer, primarily in the T-38, F-16, and C-12 aircraft. The highlight of her career was when she got to shake the hand of a pilot whose life was saved by a system she helped develop and test, the F-16 Automatic Ground Collision Avoidance System (Auto GCAS). Prior to returning to graduate school as a Research Assistant and PhD student at University Nevada Reno (UNR), Jessica taught Test Foundations to hundreds of flight test and space test professionals at the USAF TPS. This course, based on real-world flight test examples, makes the foundational concepts of flight test accessible to a wide range of expertise and backgrounds.

CLASSROOM HOURS / CEUs: 20 classroom hours / 2.0 CEU/PDH

Contact: Please contact Lisa Le or Customer Service if you have any questions about the course or group discounts for groups of 5+.