• Understand the various phases of a flight test program, Plan/Execute/Analyze/Report, from program initiation to final technical reporting.
• Explain the key concepts for successful test planning to include the importance of requirement traceability, the elements of a test plan, and the composition of a test team.
• Understand the elements of test safety planning, risk identification and management, and hazard mitigation.
• Gain experience with test conduct concepts to include test methodology, communication plans, monitoring safety parameters, and test execution tools such as control room screens and test cards.
• Gain foundational skills for analyzing flight test data by applying basic tools for accessing, processing, and saving aircraft flight data.
• Learn the ability to communicate technical content through data presentation, verbal reports, and written technical reports.
• Apply a Systems Engineering philosophy to problem decomposition and risk identification for a sample real-world flight test vignette.

OUTLINE

• Introduction to flight test

• Real-world test vignette – Importance of flight test

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

• 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

• Elements of a test plan

• Test objectives and measures of performance

• Test methodology and test point matrix

• Real-world examples – test planning

• System safety

• Hazard identification and mitigation

• Risk assessment

• Real-world examples - case studies

• Test control and personnel roles

• Communication plan

• Pre-flight predictions

• Test safety risk reduction tools – monitoring safety parameters

• Control room display principles

• Test card design principles

• Introduction of sample test vignettes from various programs

• Accessing data and data formats

• Analysis methods

• Data presentation - Sample data analysis problems

• Results from evaluation of an automobile cruise control and speedometer

• Technical writing concepts

• Verbal presentation skills and example presentation formats

• Problem Decomposition Project - Application of test planning, risk identification, risk management, and resource provisioning

Ms. Jessica “STING” Peterson has over 19 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). As an instructor at USAF TPS, Jessica has taught Test Foundations to hundreds of flight test and space test professionals. Currently, she is both a part time instructor at USAF TPS and a Graduate Research Assistant and PhD student at University Nevada Reno (UNR). 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: 16 classroom hours / 1.6 CEU/PDH

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.
• 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.